PELANTIKAN AHLI-AHLIJAWATANKUASA EXCO PPKBSM
2013-2015
Ahli-ahli Jawatankuasa Exco PusatPengajian Kejuruteraan Bahan danSumber Mineral (PPKBSM) yang barutelah dilantik berkuatkuasa pada 1Januari 2013 sehingga 31 Disember2015. Pelantikan ini terdiri daripadaDekan, tiga orang Timbalan Dekan, tigaorang Pengerusi Rancangan danPenolong Pendaftar. PPKBSM diketuaioleh Profesor Dr. Hanafi Ismail (FASc)sebagai Dekan, Profesor Dr. Zainal ArifinAhmad (Timbalan Dekan-Penyelidikan),Prof. Madya Dr. Syed Fuad Saiyid Hashim(Timbalan Dekan-Akademik) dan Prof.Madya Dr. Hashim Hussin (TimbalanDekan-Pembangunan Pelajar danBahagian Jaringan Industri &Masyarakat). Sementara itu, tiga orangPengerusi Rancangan pula terdiri daripa-da Profesor Ir. Dr. Mariatti Jaafar(Kejuruteraan Bahan), Dr. Norlia Baharun(Kejuruteraan Sumber Mineral) dan Prof.Madya Dr. Zulkifli Mohamad Ariff(Kejuruteraan Polimer). Seorang pegawaipentadbiran juga dilantik dalamjawatankuasa ini iaitu En. Mior ZulbahriM.Chek (Ketua Penolong Pendaftar).Jawatankuasa ini berperanan dalammemastikan kelancaran fungsi-fungsipentadbiran, pengurusan dan apa jugayang berhubung dengan pelaksanaankeputusan Universiti.
LAPORAN KPI PPKBSM (2012)
Pengumpulan data-data KPI PPKBSMtahun 2012 bermula sekitar bulan Julaisehinggalah Disember 2012.Pengumpulan data-data ini adalah pent-ing dalam menentukan samada KPIpusat pengajian berjaya dalam usahamencapai matlamat di dalam sebuahUniversiti Penyelidikan (RU). Penilaian KPIadalah berasaskan kepada MalaysianResearch Assessment Instrument II(MyRA II) iaitu satu instrumen penilaianuntuk Universiti Penyelidikan Matang.MyRA II memfokuskan kepada kecemer-langan dengan menghasilkan penye-lidikan dan modal insan yang lebihberkualiti. Untuk itu, perolehan markahkeseluruhan KPI PPKBSM dalam MyRA II
adalah sebanyak 67.79 yang mana penca-paian di dalam Seksyen C iaitu Quantityand Quality of Research mencatat markahyang amat baik iaitu sebanyak 45.25berbanding MyRA I dengan markah37.50. Catatan markah keseluruhan yangdiperoleh dalam MyRA I pula adalahsebanyak 83.40 manakala MyRAsebanyak 116.06. Pencapaian PPKBSMuntuk tahun-tahun seterusnya akan terusdipertingkatkan lagi dengan penambahandari segi output dan impak penyelidikanserta dalam masa yang sama turut mem-beri impak kepada komuniti atau kepadagolongan sasaran.
AKREDITASI PROGRAMAKADEMIK PUSAT PENGAJIANKEJURUTERAAN BAHAN DAN
SUMBER MINERAL
20-21 Mac 2013 - Program ijazahyang ditawarkan oleh Pusat PengajianKejuruteraan Bahan dan Sumber Mineraliaitu Kejuruteraan Bahan, KejuruteraanSumber Mineral dan Kejuruteraan Polimertelah melalui proses akreditasi oleh pihakMajlis Akreditasi Kejuruteraan (EAC),Lembaga Jurutera Malaysia. Tujuanakreditasi adalah untuk memastikanbahawa program kejuruteraan yang diikti-raf memenuhi keperluan akademik mini-mum untuk pendaftaran sebagai juruterasiswazah dengan Lembaga JuruteraMalaysia (BEM). Untuk proses akreditasikali ini, program Kejuruteraan Bahan danKejuruteraan Sumber Mineral memohonuntuk kitaran baru (new cycle) manakalaKejuruteraan Polimer memohon akreditasiuntuk pelanjutan. Panel yang hadir untukmenilai ketiga-tiga progam terdiri dari 3orang untuk Kejuruteraan Bahan, 2 orangKejuruteraan Sumber Mineral manakalaseorang panel untuk KejuruteraanPolimer. Mereka adalah Ir. Prof. Dr. AbdulRahman Omar, Ir. Dr. Idris Ibrahim, Ir.Rozali Ahmad untuk programKejuruteraan Bahan, Ir. Prof. Dr. MohdZamin Jumaat dan Ir. Prof. Dr. Law ChungLim untuk program Kej.Sumber Mineralmanakala Ir. Prof. Dr. Mohamad NorBerhan untuk program Kej. Polimer.Proses akreditasi kali ini telah berjalanlancar dan secara umumnya panelberpuas hati tentang program yangditawarkan oleh PPKBSM walaupun terda-pat isu-isu kecil yang dibangkitkan.Proses akreditasi kali ini telah berjalanlancar dan secara umumnya panelberpuas hati tentang program yangditawarkan oleh PPKBSM walaupun terda-pat isu-isu kecil yang dibangkitkan. Inidapat dilihat dari laporan yang telahdihantar oleh pihak EAC kepada PPKBSM.Kerjasama yang diberikan oleh semuastaf akademik dan sokongan telahmemastikan kejayaan proses akreditasiini.
ENJINIERBuletin Pusat Pengajian Kejuruteraan Bahan dan Sumber Mineral
Bulletin for the School of Materials and Mineral Resources Engineering Universiti Sains Malaysia
JIL. 15 BIL. 01 No. ISSN: 1511-5275 http://www.usm.my JUN 2013
1Buletin Enjinier, Jun 2013
Prof. Dr. Ahmad Fauzi (kanan) dan Exco PPKBSM bersama panel
Majlis Akreditasi Kejuruteraan (EAC), Lembaga Jurutera Malaysia
THE 5TH REGIONAL CONFERENCEON MATERIALS ENGINEERING ANDTHE 5TH REGIONAL CONFERENCE
ON NATURAL RESOURCES ANDMATERIALS 2013 (RCM5 &
RCNRM5)
21st-23rd January 2013 - The 5th RegionalConference on Materials Engineering andthe 5th Regional Conference on NaturalResources and Materials 2013 (RCM5 &RCNRM5) were concurrently organized bySchool of Materials and Mineral ResourcesEngineering, Universiti Sains Malaysia atParkroyal Penang Resort Hotel. Both con-ferences successfully attracted 128 partic-ipants to share their research findings forfurther improvement of engineering edu-cation and research capacity in ASEAN.This echoed well the theme of the confer-ence, i.e. “Innovating Towards theFrontiers of Materials & MineralsEngineering”. It is expected that bothfields endeavour not only to spur man-power development and collaborativeresearch in these disciplines but haveshown signs of reaching out to industryand community as signalled by the rangeof participation to the Conference. Thesuccess of RCM5 & RCNRM5 was a result
of tremendous support and contributionsfrom JICA, ASEAN Foundation, AUN-SeedNet, industrial and state sponsors, and ofcourse, the enthusiastic response from allparticipants. It is worth mentioning thatthese conferences concluded the Phase IIof AUN/SEED-Net project in ASEAN.
PERUTUSAN NAIB CANSELOR 201311 Januari 2013 - “BUKU 2013:Mensinergi Ekosfera Universiti UntukKecemerlangan” telah dipilih sebagaitema Perutusan Naib Canselor 2013 yangsecara dasarnya memperincikan kesedi-aan dan perancangan USM dalam meng-hadapi fasa kedua APEX (2014- 2025).Majlis berlangsung di Auditorium,Kompleks Dewan Kuliah, KampusKejuruteraan. Berucap di hadapan hampir500 warga staf dan pelajar KampusKejuruteraan, Yang Bhg. Profesor Dato’Dr. Omar Osman turut menyeru wargakampus agar menanamkan sikap meneri-ma kepada memberi tanpa disuruh selainpercaya kepada nilai yang pelbagai tetapimatlamatnya seiring dan bertindak den-gan menggunakan sepenuh daya upaya,akal budi dan profesionalisme yang tinggidengan penuh akauntabiliti dan integriti.
Bersambung ke m/s 3...
Buletin Enjinier, Jun 2013 2
Assoc. Prof. Dr. Syed Fuad
Saiyid Hashim
Prof. Dr. Zainal Arifin Ahmad
(Advisor)
Dr. Shah Rizal Kasim(Chief Editor)
Dr. Mohamad Hazizan MohamadHashim
Assoc. Prof. Dr. Azura A. Rashid
Assistant Editor
Editorial Board
Ms. Hasnah Awang
Ms. Habsah Haliman
Tan Sri Dato’ Seri Fumihiko Konishi (right) receives the souvinier from
Prof. Dr. Radzali Othman at RCM5 & RCNRM5
Dr. Arjulizan Rusli
Dr. Pung Swee Yong
Profesor Dato’ Dr. Omar Osman (kiri) melancarkan buku ‘Kejuruteraan @ USM’
ONE-DAY WORKSHOP ONMATERIALS CHARACTERIZATION
USING XRD25th April 2013 – One day workshop
on materials characterization using XRDhas been organized by the School ofMaterials & Mineral ResourcesEngineering (SMMRE) in collaborationwith Malaysian X-Ray Application Society(XApp) and SMMRE PostgraduateStudents Club (PGSC). Dr. BanjuraizahJohar from Universiti Malaysia Perlis(UniMAP) was invited as guest speaker.54 participants comprised of postgradu-ates and final year students of SMMREattended the course, assisted by 7 facili-tators.
The workshop aimed at enhancing theparticipants’ skills development on XRDcharacterization, the ability to extract andinterpret information from the XRDresults as well as understanding thestructure and compound of materials
The workshop started with a briefintroduction on XRD by Prof. Dr. ZainalArifin Ahmad, followed by the detailsexplanation from Dr. Banjuraizah whichincludes the practical session on how todo a Rietveld method, phase identifica-tion, unit cell refinement and also quan-tification analysis.
All in all, the workshop ended suc-cessfully with all the participants thor-oughly enjoyed the hands-on tutorial onXRD characterization. It is hoped that thisworkshop act as a kick-start for futureworkshops in SMMRE
PINGAT EMAS DAN ANUGERAHKHAS DI MTE2013 DAN
ITEX2013 21-23 Februari 2013 - Sekalung tahni-
ah diucapkan kepada Prof. Madya Dr.Srimala Sreekantan dan kumpulan penye-lidikannya kerana telah berjaya memper-olehi pingat emas untuk produkPenyelidikan yang bertajuk “NANOCOAT:Remedy for VOC, bacteria and fungigrowing world” di Malaysian TechnologyExpo (MTE2013) yang telah berlangsungdi PWTC. Secara keseluruhan USM telahmemenangi 1 Anugerah Khas, 3 PingatEmas, 8 Pingat Perak dan 1 PingatGangsa di pertandingan tersebut.
Ucapan tahniah juga kepada tiga“otai” PPKBSM iaitu Profesor Dr. HanafiIsmail (FASc) dan kumpulan penyelidikan-nya, Profesor Dr. Radzali Othman dankumpulan penyelidikannya serta ProfesorDr. Zainal Arifin Ahmad dan kumpulanpenyelidikannya kerana cemerlang diPameran Reka Cipta Inovasi danTeknologi Antarabangsa ke 24 (ITEX2013) yang berlangsung dari 10-12 Mei diKuala Lumpur Convention Center, KLCC.Profesor Dr. Hanafi Ismail (FASc) telahmemenangi Pingat Emas dan AnugerahKhas untuk produk Penyelidikan yangbertajuk “r-RubFoam-A Novel Solution forGlobal Oil Spills “. Sementara itu Profesor
Dr. Radzali Othman telah memenangi pin-gat emas untuk produk penyelidikan yangbertajuk TCP.COM. Profesor Dr. ZainalArifin Ahmad pula telah memenangi pin-gat emas untuk produk penyelidikanbertajuk “Porous Medium Stove WithCogeneration”. Warga PPKBSM mengu-capkan syabas dan tahniah kepadasemua pemenang.
BENGKEL SUNTINGAN POSTER & FOTO
15-16 Mei 2013 - Jawatankuasa ICTPPK Bahan & Sumber Mineral & KelabSukan & Rekreasi PPK Bahan & SumberMineral (KSR PPKBSM), telah mengan-jurkan Bengkel Suntingan Poster & Fotomenggunakan perisian Adobe PhotoshopCS6 dan Lightroom di Makmal KomputerPPKBSM disertai 18 orang staf dan pelajarijazah tinggi.
Slot pengisian untuk bengkel kali inimendedahkan konsep asas, rekabentukand pengeditan yang boleh diaplikasikandengan perisian Adobe Photoshop CS6dan Lightroom. Sesi pengisian bengkeldimulakan dengan pembentanganperkara asas oleh En. Mohd HalimHassan. Beliau telah menunjukkan mak-sud simbol-simbol yang terdapat dalamperisian Adobe Photoshop. Program
kemudian diteruskan pula dengan sesipembentangan teknik suntingan fotomenggunakan Lightroom oleh En. KhairulNasrin Abas. Di akhir bengkel semuapeserta diminta untuk menyediakan pro-jek mini berbentuk poster dengan temaPPK Bahan & Sumber Mineral. Semogabengkel selama 2 hari ini dapat memban-tu para peserta meningkatkan penge-tahuan dan kemahiran di dalam prosessuntingan poster dan foto.
Sambungan dari m/s 2..Perutusan tahun kedua Profesor Dato’
Dr. Omar Osman selaku Naib Canselor kaliini secara umumnya merupakan kesinam-bungan penjenamaan ucapan tahun 2012yang dinamakan BERSAMA-SAMA UNTUKKECEMERLANGAN UNIVERSITI (BUKU)bertemakan “Menzahirkan Pencapaian”.Majlis turut diserikan dengan pen-ganugerahan watikah lantikan kepadasemua Dekan/Pengarah PTJ sertapenyampaian penghargaan kepadapenerima dana Perolehan USM 2012 olehstaf-staf kampus Kejuruteraan. Padamajlis yang sama, Profesor Dato’ Dr.Omar Osman juga turut melancarkanbuku ‘Kejuruteraan @ USM’ hasil nukilandan bakti khidmat warga kampus keju-ruteraan USM.
Buletin Enjinier, Jun 2013 3
Bengkel suntingan poster & foto anjuran jawatankuasa ICT PPKBSM
Prof. Dr. Hanafi Ismail (kiri) memenangi Pingat Emas dan Anugerah Khas di ITEX 2013
EDUCATIONAL-INTERACTIONTRIP MALAYSIA-VIETNAM
26-27 Februari 2013 - Seramai 26orang pelajar tahun akhir KejuruteraanPolimer yang turut disertai 10 pensyarahpengiring dan staf sokongan telah men-gadakan lawatan ke Ho Chi MinhUniversity of Technology (HCMUT) danInstitut Penyelidikan Getah Vietnam(RRIV). Di HCMUT, berlaku perbincanganberkaitan proses pengajaran dan pembe-lajaran serta usaha untuk mewujudkanmemorandum perjanjian (memorandumof agreement) di antara USM dan HCMUT.Delegasi juga dibawa melawat kemuda-han peralatan dan penyelidikan di sana.Di RRIV pula, delegasi diberi pendedahanberkaitan aktiviti penyelidikan teruta-manya aktiviti pengklonan getah yangdijalankan di sana. Delegasi juga dibawamelawat Kilang Getah Ben Suc yangmenghasilkan blok-blok getah piawaianVietnam. Lawatan ini telah memberi pen-galaman berharga kepada semua ahli del-egasi terutamanya pelajar tahun akhirKejuruteraan Polimer.
CERAMAH ETIKA DALAMPEKERJAAN DAN PELANCARAN
PROGRAM LENA-BARAKAH23 Mei 2013 - Kelab Sukan dan
Rekreasi (KSR) dengan kerjasama JKKampus Sejahtera PPKBSM telah men-gadakan suatu program majlis ilmu den-gan menjemput penceramah yang tidakasing lagi iaitu Yang Berbahagia UstazEllias Zakaria dari Pusat Pengajian IlmuKemanusiaan. Tajuk ceramah yang disam-paikan oleh Ustaz Ellias ialah ‘Etika dalamPekerjaan’. Program yang bermula padajam 8.30 pagi ini telah telah dihadiri kira-kira 80 orang warga PPKBSM. Di dalamceramah ini, Ustaz Ellias telahmenekankan kepentingan mempunyaietika pekerjaan yang baik supaya hidupkita diberkati di dunia dan di akhirat.Selain daripada itu, ‘Program Lena-Barakah’ turut dilancarkan bersempenakehadiran bulan penuh dengankeberkatan iaitu Rejab, Syaaban danRamadhan. Program ini bertujuanmengumpulkan dana untuk membelitilam bagi didermakan kepada rumahanak-anak yatim. Majlis pelancaran telahdisempurnakan oleh Dekan PPKBSM,Profesor Dr. Hanafi Ismail (FASc). Semogaamalan yang kita lakukan beroleh gan-jaran yang sewajarnya.
BENGKEL “IMAGE ANALYSER”14-16 Januari 2013 - PPKBSM telah
menjemput Dr. Tan Poh Lai perundingteknikal dari syarikat Microvisual Solutionuntuk memberi penerangan mengenaiperisian i-Solution DT. Perisian ini meru-pakan satu perisian untuk menjalankankerja-kerja perincian menggunakanmikroskop optik. Bengkel selama 3 hari initelah diadakan di Makmal Metalografi 1dengan kehadiran 9 orang peserta yang
terdiri daripada pensyarah, juruteknik danpelajar pasca siswazah. Dr. Tan telahmenunjukkan kepelbagaian kaedah yangboleh digunakan dalam perisian ini untukmendapatkan maklumat perincian daripa-da setiap sampel yang berbeza. Secarakeseluruhannya, bengkel ini telah berjayamemberikan info-info baru dalam duniaanalisis pengimejan.
MAJLIS PERPISAHAN STAFPPKBSM
16 April 2013 - Satu majlis perpisahantelah diadakan bagi meraikan 3 orang stafPPKBSM iaitu En. Syed Mohamad b. SyedMohd Yusoff yang berpindah ke JabatanPembangunan, Puan Intan Rahayu bt.Mohd Ramli yang berpindah ke PPKMekanik dan Puan Zurina bt. Md Pazilyang berpindah ke PPK Elektrik &Elektronik. Di dalam ucapan alu-aluannya,Prof. Dr. Hanafi Ismail (FASc) selakudekan PPKBSM merakamkan setinggipenghargaan diatas khidmat yang telahdiberikan dan berharap semangat dankomitmen kerja yang telah dipamerkan diPPKBSM akan dapat diteruskan demikecemerlangan USM.
PPKBSM : HARI TERBUKA USMDAN ‘JOM MASUK U’
9 -10 Mac 2013 - PPKBSM turut terli-bat dalam Hari Terbuka USM dan KarnivalPengajian Tinggi Negara 2013 PulauPinang yang telah berlangsung selama 2hari mulai jam 9.00 pagi hingga 6.00petang bertempat di USM induk. Karnivalyang bertema “Jom Masuk U” ini adalahanjuran Kementerian Pengajian TinggiMalaysia dengan kerjasama KementerianPelajaran Malaysia.
PPKBSM berusaha memenuhi objektifkarnival iaitu memberi promosi danpendedahan maklumat asas mengenaiketiga-tiga program pengajian yangditawarkan oleh PPKBSM iaitu ProgramKejuruteraan Bahan, KejuruteraanSumber Mineral dan Kejuruteraan Polimer.Melalui program ini, para pelawatdidedahkan dengan dasar, prosedur danproses permohonan kemasukan keUniversiti Sains Malaysia. Semoga karni-val ini dapat diteruskan di masa akandatang sebagai wadah untuk merapatkanhubungan antara PPKBSM khususnya danUSM amnya dengan masyarakat luar.
Buletin Enjinier, Jun 2013 4
Ceramah “Etika dalam Pekerjaan’ oleh Ustaz Ellias Zakaria
Lawatan pelajar Kejuruteraan Polimer dan staf akademik ke HCMUT dan RRIV, Ho Chi Minh
YOUNG PERSON’S LECTURECOMPETITION MALAYSIA 2013
(USM LEVEL)
8th May 2013 - A selection of the best pre-senter to represent USM for the YoungPersons’ Lecture Competition Malaysia2013 (YPLC Malaysia 2013) was conduct-ed by the School of Materials and MineralResources Engineering. This selectionwas done via Young Persons LectureCompetition 2013 (USM level). The com-petition was opened to students andresearchers (excluded lecturers) of USMunder the age of 28 years old on 1 August2013. The best presenter of this competi-tion was Miss Maslinda Kamarudin, mas-ter candidate from SMMRE, who tookaway RM500 cash award. She is going tocompete in YPLC Malaysia 2013 on 30th
May 2013 for a place to representMalaysia in Young Person World LectureCompetition in Hong Kong on July 2013.The runner up of this competition was Mr.Mathialagan a/l Muniyadi, PhD candidatefrom SMMRE who won RM300 cashaward. Lastly, Mr. Mohd Saidina binDandan Satia, 4th year student fromSMMRE was the second runner up with acash award of RM200. All the winnersreceived a certificate as reorganization oftheir talent in public speaking skill.
MALAYSIA-INDONESIA MINERALS EDUCATIONAL EXPOSURE
EXCURSION, MIME3
18-23 Mei 2013 - Sekumpulan 21 orangpelajar Tahun Akhir Kejuruteraan SumberMineral, Universiti Sains Malaysia KampusKejuruteraan telah mengadakan lawatanindustri ke Indonesia, diiringi seramai 5orang tenaga akademik. Sewaktu di sanarombongan ini telah melawat lombongemas ‘Tambang Emas CibaliungSumberdaya’. Para peserta diberi peluangmerasai sendiri pengalaman aktiviti per-lombongan bawah tanah. Selain itu rom-bongan juga telah mengadakan kunjun-gan ke Fakultas Teknik Pertambangandan Perminyakan, Institut TeknologiBandung (ITB) dan Muzium GeologiBandung. Aktiviti ini secara langsungmemberi manfaat kepada para pelajardan pengalaman baru yang tidak akandiperoleh di Malaysia memandangkanketiadaan lombong bawah tanah berop-erasi di Malaysia. Program seperti inidiharapkan dapat menjadi aktiviti tahu-nan bagi pelajar tahun akhir sebagaisalah satu persiapan melangkah ke duniapekerjaan global yang lebih mencabar.
SUKAN TAHUNAN MIMATES 2013
Sepanjang 27 April 2013 hingga 15 Mei2013 yang lalu telah berlangsung acaraSukan Tahunan MIMATES yang meru-pakan acara tahunan Persatuan PelajarKejuruteraan Bahan & Sumber Mineral
(MIMATES). Sebanyak 9 acara telahdipertandingkan sepanjang tempoh terse-but seperti ping-pong, futsal, tarik talidan sebagainya. Program ini bertujuanuntuk membentuk masyarakat yangmembudayakan rekreasi. Semoga pro-gram ini dapat memberikan manfaat danmerapatkan ukhwah dikalangan kitawarga PPKBSM.
BENGKEL TATARIAS MARY KAY
7 Jun 2013 - Kelab Sukan & RekreasiPPKBSM dengan kerjasama JawatankuasaKampus Sejahtera PPKBSM telah men-ganjurkan ‘Bengkel Tatarias Mary Kay’bertempat di Bilik Seminar, PPKBSM.Bengkel ini terbuka kepada peserta wani-ta sahaja yang terdiri daripada staf danpelajar pasca siswazah PPKBSM. Seramaihampir 30 peserta telah menyertaibengkel tatarias ini yang dibahagikankepada 2 sesi. Tujuan bengkel ini adalahuntuk memberi peluang kepada pen-syarah & pelajar pasca siswazah untukmeleraikan tekanan yang dihadapi sepan-jang semester pengajaran dan juga untukmeningkatkan kesedaran dan penge-tahuan berkenaan kepentingan menjaga
penampilan dan kecantikan diri. Pihak penganjur telah berbesar hati
dengan kesudian Puan Noora Shukoryang merupakan Konsultan KecantikanMary Kay bertauliah untuk hadirberkongsi ilmu dengan peserta-pesertadan seterusnya merealisasikan bengkelini. Bengkel ini memberi fokus kepada 2elemen penting bermula dengan sesimengenali & keperluan menjaga kulitmuka diikuti dengan sesi tatarias. Semasabengkel dijalankan, aktiviti menjawabkuiz dan juga pertandingan tatarias ter-baik juga diadakan. Antara pemenangbertuah yang mendapat cenderahatiberupa produk Mary Kay adalah PuanNorhaizan Mahamad Shari. Secarakeseluruhannya, bengkel selama 3 jam inisangat berinfomatif dan memberi man-faat kepada staf dan pelajar pascasiswazah PPKBSM dalam meningkatkanpenampilan diri serta mendalami ilmukecantikan.
Buletin Enjinier, Jun 2013 5
Lawatan industri pelajar tahun akhir (Kejuruteraan Sumber Mineral) ke Bandung, Indonesia.
Participants for the Young Persons’ Lecture Competition Malaysia 2013 (USM level)
PROF. DR. ZAINAL ARIFIN AHMADSUDOKU 2013 COMPETITION
27th March 2013 - The event was held atSeminar Room, School of Materials andMineral Resources Engineering. This isthe 5th Sudoku Competition which the firstedition were started on 2007. The pur-pose of this competition is to give stu-dents a platform where they can apply acreative and critical thinking while solvingthe Sudoku puzzles. Unlike normal cross-word puzzles, Sudoku puzzle tested theparticipant on how they think and not onwhat they know. A total of 89 participantsattended the competition where 14 fromstaff, 31 from postgraduate students and44 from undergraduate students. Asidefrom that, Sudoku 2013 Competition wasalso takes interest from International stu-dent. Students from Libya, Laos, China,Jordan and Myanmar also participated inthis competition. Each of the participantswas instructed to solve 2 Sudoku puzzleswithin 45 minutes. Winners were judgedby how fast they can solve the puzzleswithout any mistakes. Prizes were givento the top 10 participant who successfullysolve both Sudoku puzzles without anyerror. The overall winner for Sudoku 2013Competition is Ng Chai Yen who managedto solve both Sudoku puzzle with 8 min-utes and 18 seconds. She was awardedwith the Championship trophy, a uniqueSudoku plaque and a hamper. TheSudoku 2013 Competition organizerwould like to congratulate all the winners.In addition, the organizer would also liketo thanks to our sponsors, our committeeand the participant as well. Furthermore,we also like to thanks to those who hasbeen a big help to make this competitiona success whether directly or indirectly.
MAJLIS PERPISAHAN PROF. MADYADR. SABAR DERITA HUTAGALUNG
24 Jun 2013 - Satu majlis perpisahantelah diadakan untuk meraikan pemer-gian Prof. Madya Dr. Sabar DeritaHutagalung. Lebih mesra dipanggil seba-gai “Pak Sabar” di kalangan warga PPKB-SM, beliau telah berkhidmat hampir sepu-luh tahun di sini dan bukan sahaja dike-nali sebagai seorang pensyarah yang dis-enangi oleh rakan serta para pelajarmalahan sering mengharumkan namaPPKBSM khususnya dan USM amnya didalam pertandingan dan pameran diper-ingkat kebangsaan dan antarabangsa. Didalam ucapannya, beliau merakamkanjutaan terima kasih kepada pihak pusatpengajian kerana sudi menganjurkanmajlis perpisahan ini dan mendoakanlebih kejayaan dan kecemerlangan dapatdiperolehi oleh warga PPKBSM di masahadapan. Kepada “Pak Sabar”, semogaberjaya ditempat baru dan janganlupakan kami di sini.
Buletin Enjinier, Jun 2013 6
Organizing commitee and the winners of Prof. Dr. Zainal Arifin Ahmad Sudoku 2013 competition
Prof. Madya Dr. Sabar (kiri) menerima cenderahati kenangan dari Prof. Ir. Dr. Mariatti
Bulan Terbelah
Hasil karya : mcrose
TembusilahKiranya ada KEKUATAN
SelamilahKiranya ada KEUPAYAAN
Lihatlah di BARATMereka telah menembusi
Lihatlah dihujung TIMURMereka telah menyelami
Mereka telah membenarkan seperti kata nabiLingkaran bulan terbelah dua
Mereka telah membenarkan kerajaansulaimanPelbagai khazanah di dasar lautan
JusteruIman mereka bertambahYakinKukuhTeguhKita ????
Kuatkan kekuatanTingkatkan keupayaanBacalah, bacalah dan bacalah ……….
Buletin Enjinier, Jun 2013 7
List of SMMRE Postgraduate Students Viva from January-June 2013
No. Student Nama / Date Degree Title of Thesis Name of Supervisor
1 Hanizam Shah Saidin
3 January 2013
MSc Reduction of Malaysian Iron Ore Pellet by Using Coal as Reductant Prof. Madya Dr. Hashim HussinDr. Sheikh Abdul Rezan S. Abdul Hamid
2 Noorhashimah Mohamad Nor
9 January 2013
MSc Production of Iron Oxide Ferrofluid Conjugated Biomolecules for
Diagnostic ApplicationsProf. Madya Dr. Khairunisak Abdul RazakProf. Madya Dr. Azlan Abdul AzizProf. Dr. Rahmah Noordin
3 Juna Azleen Abdul Ghani
15 January 2013
MSc Determination of K and Value of Scaled Distance to Predict the Level of
Ground Vibration Induced During Blasting for Peninsular MalaysiaProf. Madya Dr. Syed Fuad SayyidHashimDr. Mior Termizi Mohd Yusof
4 Siti Rabizah Makhsin
15 January 2013
MSc Properties of Gold Nanoparticles and Its Conjugation with Biomolecules
for Diagnostic ApplicationProf. Madya Dr. Khairunisak Abdul RazakProf. Madya Dr. Azlan Abdul AzizProf. Dr. Rahmah Noordin
5 Oon Hooi Shy
18 January 2013
MSc Growth and Physical Characterization of Natire Oxide Thin Film on N-Type
Gallium Nitride Substrate by Thermal Oxidation in Nitrous Oxide AmbientProf. Madya Ir. Cheong Kuan Yew
6 Ragunathan a/l Santiagoo
30 January 2013
PhD Characterization and Properties of Polypropylene/Recycled Acrylonitrile
Butadiene Rubber/Rice Husk Powder CompositesProf. Dr. Hanafi Ismail(FASc)Brig. Gen. Dato’ Prof. Dr. KamarudinHussin
7 Teguh Darsono
4 February 2013
PhD Study of Electron Transport on Gold Nanodot-Silicon Interface Grown by
Scanning Probe MicroscopeProf. Madya Dr. Sabar Derita HutagalungProf. Madya Ir. Dr. Cheong Kuan YewProf. Dr. Zainal Arifin Ahmad
8 Tan Seah Guan
5 February 2013
PhD Preparation and Characterization of Epoxidized Soybean Oil Based
Thermoset Blends and NanocompositesProf. Madya Dr. Chow Wen ShyangProf. Madya Dr. Zulkifli Ahmad
9 Phoumiphon Nordana
13 February 2013
MSc Effect of Mechanical Activation on the Fluxing Properties of Feldspar Prof. Dr. Radzali OthmanProf. Madya Dr. Hasmaliza Mohamad
10 Mohd. Firdaus bin Omar
14 February 2013
PhD Static and Dynamic Mechanical Properties and Strain Rate Sensitivity of
Thermoplastic Based Polymers and Composites Using Split Hopkinson
Pressure Bar Apparatus
Prof. Dr. Hazizan Md Akil
11 Lai Chin Wei
26 February 2013
PhD Development of WO3-TiO2 Nanotube Arrays for Water Electrolysis Prof. Madya Dr. Srimala a/p Sreekantan
12 Nilar Lwin
6 March 2013
PhD Physical and Development Properties of Tm, Gd Substitution on Mg Mn
FerriteProf. Dr. Ahmad Fauzi Mohd NorProf. Dr. Radzali OthmanProf. Madya Dr. Srimala a/p Sreekantan
13 Sheril binti Rizal Vincent
14 March 2013
MSc Studies on the Properties of Hybrid Mineral Fillers Filled Polypropylene
Composites (2013)Prof. Ir. Dr. Mariatti Jaafar
14 Nur Syafinaz binti Ridhuan
22 March 2013
MSc Feasibility Study of ZnO Nanorods for Sensor Application (2013) Prof. Madya Dr. Khairunisak Abdul RazakProf. Madya Dr. Azlan Abdul AzizProf. Madya Dr. Zainovia Lockman
15 Husna Madihah binti Hasan
27 March 2013
MSc Preparation and Properties of Impact Modified Poly(Lactic Acid) and Its
Composites With Short Kenaf Bast Fiber (2013)Prof. Madya Dr. Razaina Mat Taib
16 Khe Cheng Seong
9 April 2013
PhD Role and Correlation of Synthesis Size and Morphology to the Magnetic
Properties of Cabait and Co/Au Bimetallic Hierarchical Nanostructures
(2013)
Prof. Dr. Azizan AzizProf. Madya Dr. Zainovia Lockman
17 Umar Al-Amani bin Haji Azlan
11 April 2013
PhD The Effect of Rare-Earth Substitution on the Properties of Bismuth
Titanate Prepared by Low Temperature Combustion Technique (2013)Prof. Madya Dr. Srimala SreekantanProf. Dr. Ahmad Fauzi Mohd NoorProf. Madya Dr. Khairunisak Abdul Razak
18 Kouth Phommachanh
15 April 2013
MSc Effects of Accelerated Weathering on the Properties of Polylactic Acid
Toughened with an Ethylene Copolymeras an Impact ModifierProf. Madya Dr. Razaina Mat Taib
19 Kry Nallis
15 April 2013
PhD The UV-Shielding Property of Zr0.7 Ce0.3O2 – Kaolinite/Exfoliated Kaolinite
Composites Prepared by Different Synthesis MethodsProf. Dr. Radzali Othman
20 Mohd Fariz bin Ab Rahman
16 April 2013
MSc Investigation of Mg Doped CCTO on Ca and Cu Sites Prepared by Solid
State ReactionProf. Madya Dr. Sabar Derita HutagalungDr. Julie Juliewatty Mohamed
21 Le Thi Bang
23 April 2013
PhD Substituted Apatite/Poly-Epsilon-Caprolactone Biocomposite as Substrates
and Coating on α-TCO FoamsProf. Dr. Radzali Othman
22 Warapong Krengvirat
29 April 2013
PhD Development of C-K-TiO2 Nanotube Arrays for Solar Harvesting
ApplicationsProf. Madya Dr. Srimala a/p SreekantanProf. Dr. Ahmad Fauzi Mohd Noor
23 Tran Bao Trung
29 April 2013
PhD Effect of Graphite and NbC on Mechanical Poperties of AI1304 Binded NC Prof. Madya Dr. Zuhailawati Hussain
Prof. Dr. Zainal Arifin Ahmad
24 Siti Salmi binti Samsudin
30 April 2013
MSc Development and Characterization of Epoxy Syntactic Foam Filled with
Epoxy Hollow Spheres
Prof. Madya Dr. Zulkifli Mohamad Ariff
Prof. Madya Dr. Azhar Abu Bakar
25 Azlila binti Zakaria
3 May 2013
MSc Penghasilan Hidroksiapatit Menggunakan Kaedah Pengaktifan Mekanik Prof. Dr. Radzali Othman
26 Mohamad Kahar bin Ab Wahab
21 May 2013
PhD Characterization and Properties of Thermoplastic Tapioca Starch Based
High Density Polyethylene/Natural Rubber Blends
Prof. Dr. Hanafi Ismail (FASc)
Dr. Nadras Othman
27 Zunaida binti Zakaria
27 May 2013
PhD Compressive Properties and Simulation of Low Density Polyethylene
FoamsProf. Madya Dr. Zulkifli Mohamad AriffProf. Madya Dr. Azhar Abu Bakar
28 Farah binti Jaafar
31 May 2013
MSc Crystalization in Glass Systems Based on Padi Stalk Ash Prof. Dr. Radzali Othman
29 Muhammad Azwadi bin Sulaiman
4 June 2013
PhD Effects of Electrode Materials on Electrical Properties of CaCu3Ti4O12 at
100 Hz – 1GHzProf. Madya Dr. Sabar Derita HutagalungProf. Dr. Zainal Arifin Ahmad
30 Tulus Ikhsan Nasution
5 June 2013
PhD Chitosan Based Acetone Sensor for Detecting Low Concentration Acetone Prof. Dr. Zainal Arifin AhmadProf. Madya Dr. Sabar Derita HutagalungDr. Khairel Rafezi Ahmad
31 Orathai Boondamnoen
11 June 2013
PhD Characterization and Optimization of Waste Natural Rubber Latex and
Polystyrene Blend (WNRL/PS)Prof. Dr. Azlan AriffinProf. Madya Dr. Azura A. Rashid
Continue to page 8
Buletin Enjinier, Jun 2013 8
KEJURUTERAAN BAHAN
TAHUN 1
CHAI CHIA CHANG
CHAN JI KIT
CH'NG MUN SUNN
CHONG SU FANG
HOO XIAO FEN
KOH LIAN JUN
LAI CHAI MEI
LAW HON KIN
LEONG QIAO LIN
LEONG TENG TENG
LIM SHI HONG
LOO FOONG LING
LOW SU YEIAN
TAN ZHI QIN
TENG JIN WEN
WONG SI MIN
YONG XUAN HUI
TAHUN 2
CHUA PEI CHING
CHUAH WEI HOONG
GOH THENG TYNG
LEE CHEE KEAT
LEE JIN LING
LIANG SHU YI
LIEW XUE MING
LIM CHUI NING
LOY LIANG SOON
MABEL DE CUNHA
NEOH SOO HUAN
NOR SAKINAH BINTI MANSOR
ONG XIANG QI
QUAH WEI LUN
TUAN NUR IZZAH BINTI TUAN AB RASHID
YEAP CHEOK KUANG
TAHUN 3
BONG PENG HOOI
CHAN TZE PING
CHANG CHI HSIUNG
CHEW ZHU ANN
FOO HUI SHIAN
KUEH SHAO HONG
LEE KAR CHUN
MUHAMMAD 'AFIF SHARHAN B SHU'AI-
BON
MUHAMMAD ANAS BIN NORAZMAN
MUHAMMAD FAHIM BIN ABDUL RAHMAN
ONG CHIN SIANG
TAN MAY WEN
TEW CHOON CONG
TRICIA NEOH HUI WERN
YONG JING HUI
TAHUN 4
CHOW HON MUN
FADHILAH NURANI BINTI RAMUHZAN
GAN WEI LONG
HO KAR YEE
KHOO SENG KIAN
LEE CHUN CHIEN
LIM SIEW MING
LIM YOU SING
LOW YAN WAH
MOHD SAIDINA BIN DANDAN SATIA
MUHAMMAD IRFAN BIN MAT KANDAR
NG CHOO YEE
RASHIDAH BINTI IDZHAR
SEE CHUIN WERN
SONG WAI CHEN
SYAZWAN AIZAD BIN ABDUL MUTALIB
TAI MUN FOONG
TAN PEI SHAN
TEA SIEW HWA (BERIJAZAH)
WONG CHEE KEN
WONG WAI YEE
KEJURUTERAAN SUMBER MINERAL
TAHUN 1
KHONG LING HAN
TAHUN 2
TIADA
TAHUN 3
MOHAMAD ARIFF BIN MAD FADEL
MACLIVE WILKINSON ANAK AGAM
NAZATUL AZREEN BINTI AZIZUL HASSAN
WAN ATIKAH BINTI WAN AZALAN
UN JIA JIA
TAHUN 4
MOHAMAD AZIF ZAI BIN ZAINUL ABIDIN
MOHAMMAD AMIRRUL B OTHMAN (BERI-
JAZAH)
MOHAMMAD AZLAN BIN ISHAK
MOHD SHAKIR AFIF BIN ABU BAKAR
MUHAMMAD ARIF SAFWAN BIN ABDUL
GHANI
MUHAMMAD ZULQAYYIM BIN NOOR
AZIZUL
NUR AIN BT ZAINOL ABIDIN
NUR SHAFIQAH BT ISMAIL
NUR SUHAILA BINTI MOHAMAD RAFFI
RAIDATUL NAJIHAH BINTI EMIR
HAMZAH
YONG JAAN YIP
KEJURUTERAAN POLIMER
TAHUN 1
CHUA LIAN TATT
FAHZIMRAN AFNOR BIN AFENDI
JOYCE A/P MICHAEL RETNASINGAM
LEE CHEE KEONG
LIM WEI CHUN
SIN YIN TIN
TAN WAI KEAT
TIUN TZE THING
WANG LEONG KWAN
TAHUN 2
BEH KAH BOON
LEONG HUI THENG
LIM KAR WAI
LIM WEY SONG
MAK SOK YEE
NADIA BINTI WAN AZMAN
NAFEESA BINTI MOHAMAD SHUKRI
NIK NUR ASMA' NABILAH BINTI NIK
MUHAMMAD SHUKRI
NUR HAYATI BINTI ESZER
TEO ZU XIAN
TEOH ZHIXUAN
TAHUN 3
LIM YEE HUI
MINCE LEONG YEN SHEE
NUUR SYUHADA BINTI DZULKAFLY
THEN JIE WEN
YEOH WEI LIN
TAHUN 4
ANDRE NINGKAN GADUAN
BANNARD A/L LAZIL
CHEW CHUN MUN
HO WAI MAY
KHOR TATT HWA
KWEE FUNG YUNN
LOW HONG FOOK
LUA SEH KEE
MASTURAH BINTI MOHSIN
MOHD AMYRUL AZRI B MOHAMAD ARIS
NOOR ADIANAERMA BINTI JAMIRIN
NOOR FADHILA SYAHIDA BINTI GHAZALI
NUR NASYRAH BINTI AZMAN
TEO PEI SHAN
WANG TECK NING
SENARAI SIJIL DEKAN SEMESTER I, SIDANG AKADEMIK 2012/2013SIJIL DEKAN
No. Student Nama / Date Degree Title of Thesis Name of Supervisor
32 Syahriza binti Ismail
12 June 2013
PhD Formation of Nanotubular Oxide by Anodization of Valve Metals Prof. Madya Dr. Zainovia LockmanProf. Dr. Zainal Arifin Ahmad
33 Noor Mazni binti Ismail
17 June 2013
PhD The Effect of Coagulation Method and Benzoyl Peroxide Properties Free
Radical Functionalization Method on the Properties of MWCNT/PMMA
Nanocomposite
Prof. Dr. Azizan AzizProf. Ir. Dr. Mariatti Jaafar
34 Abdul Malek bin Ya’acob
18 June 2013
PhD Kenaf Hybrid Bio-Composites: Preparation, Characterization and
PropertiesProf. Madya Dr. Azhar Abu BakarProf. Dr. Hanafi Ismail (FASc)
From page 7
SENARAI STAF PENTADBIRAN YANG BERTUKAR TEMPAT BERTUGAS
BIL NAMA JAWATAN TARIKH
KUATKUASA
1 ENCIK SYED MOHAMAD BIN SYED MOHD YUSOFF PEMBANTU AM PEJABAT N4 01.04.2013
2 PUAN ZURINA BINTI MD PAZIL PEMBANTU TADBIR (P/O) N17 (KUP) 01.04.2013
3 PUAN INTAN RAHAYU BINTI MD RAMLI @ RAMLI PEMBANTU TADBIR (P/O) N17 01.04.2013
9Buletin Enjinier, Jun 2013
SENARAI STAF BARU YANG BERTUGAS DI PPKBSM
BIL NAMA JAWATAN TARIKH
KUATKUASA
1 ENCIK MOHD NASSA BIN MD REJAB PEMBANTU AM PEJABAT N1 01.04.2013
2 PUAN NOR ASMAH BINTI MD NOR PEMBANTU TADBIR (P/O) N17 01.04.2013
3 PUAN NURSHALYDAH BINTI SALLEH PEMBANTU TADBIR (P/O) N17 01.04.2013
No. Date Name Organization Purpose1. 16.1.2013 Akihiko Matsumoto Tayohashi University of Technology Research Collaboration2. 6.2.2013 Fumitake Takahashi Tokyo Institute of Technology Research Collaboration3. 27.2.2013 Shin Mukai Hokkaido University Research Collaboration4. 1.3.2013 Kasem Choocharukul
SiripornrungrueangtanyaNatthanon Patcharapunchai
AUN/SEED-Net Research Collaboration
5. 4.3.2013 Mitsuteru Inoue Tayohashi University of Technology Research Collaboration
6. 5.3.2013 Tomesz SzmucJanusz Szpytko
AGH University of Science and Technology Research Collaboration
7. 5.3.2013 Stec-Nicpon Aucja Embassy of The Republic of Poland Research Collaboration
8. 6.3.2013 Kang Lay KimYee Nai TuckLim Bee Vian
Malaysian Investment Development Authority Research Collaboration
9. 6.3.2013 Azhana Mohamed SalehMuhammad Azizul Atfi Adnan
MIDA Penang Research Collaboration
10. 7.3.2013 Zainul Ahmad Rajion Pusat Pengajian Sains Pergigian, USM Research Collaboration11. 22.4.2013 Tatsuya Okubo The University of Tokyo Research Collaboration12. 23.4.2013 Harry Agusnar
Timurni Abidin
Universitas Sumatera Utara Research Collaboration
13. 28.5.2013 Naoki Nakata
Lim Pang Boey
Seiji Iwasa
Tayohashi University of Technology Research Collaboration
Visitors to the SMMRE (January to June 2013)
STAF YANG TAMAT PERKHIDMATAN
ANUGERAH PERKHIDMATAN CEMERLANG USM 2012
PPKBSM mengucapkan tahniah dan syabas kepada penerima Anugerah Perkhidmatan Cemerlang (APC) 2012.
1. Prof. Dr. Radzali Bin Othman Pensyarah Univ. Gred Khas A VK5
2. Prof. Dr. Hanafi Bin Ismail (FASc) Pensyarah Univ. Gred Khas B VK6
3. Prof. Dato’ Dr. Ir. Eric Goh Kok Hoe Pensyarah Univ. Gred Khas C VK7
4. Prof. Madya Dr. Srimala a/p Sreekantan Pensyarah Univ. DS54
5. Encik Mior Zulbahri Bin M. Chek Ketua Penolong Pendaftar N48
6. Puan Fong Lee Lee Juruteknik J26
7. Encik Shahril Amir Bin Saleh Juruteknik J17
8. Cik Noor Hakishah Binti Samsudin Pembantu Tabdir (P/O) N17
BIL NAMA JAWATAN TARIKH
1 CIK MUNIRAH BINTI MUSA PEMBANTU TADBIR N17 04.01.2013
2 DR. DOAA ABDEL NABI ABDEL AZIZ PENYELIDIK KUNJUNGAN 31.01.2013
BIL NAMA JAWATAN TARIKH
KUATKUASA
1 DR. NURULAKMAL BINTI MOHD SHARIF PENSY. UNIV. DS52 01/10/2012 - 30/06/2013
2 PROF. MADYA DR. ZULKIFLI BIN AHMAD PENSY. UNIV. DS54 01/12/2012 - 31/08/2013
3 EN. MOHD NAZRI BIN IDRIS PEGAWAI PENYELIDIK 01/10/2012 - 30/09/2015
4 DR. HAREYANI BINTI ZABIDI PENSY. UNIV. DS51 01/10/2012 - 31/03/2013
SENARAI STAF CUTI SABATIKAL, CUTI BELAJAR DAN CUTI PENYELIDIKAN
MORPHOLOGY AND STRUCTUREPROPERTIES OF ALKALI-TREATED
KENAF BAST FIBERS
R. Mat Taib, D. Ariawan,
Z. A. Mohd Ishak
School of Materials & Mineral ResourcesEngineering, Engineering Campus,Universiti Sains Malaysia, 14300 NibongTebal, Penang, Malaysia
IntroductionThe use of natural fibers such as sisal andkenaf as reinforcement or filler in com-posites continues to receive much atten-tion from numerous researchers acrossthe world. This is due to the broad rangeof advantages offered by these fibers par-ticularly low density, low volumetric cost,high specific properties and more impor-tantly biodegradability. The use of naturalfibers, however, may lead to unsatisfacto-ry mechanical properties of the compos-ites due to among others limited compat-ibility between the polar fiber and thenon-polar polymer matrix. Natural fibersare polar materials due to the presence ofhydroxyls groups in the fiber cell walls.Various methods have been employed tooptimize fiber–matrix compatibility (oradhesion) by modification of fiber surfaceproperties via chemical treatments suchas alkalization [1-5]. Alkalization or alkali treatment is one ofthe most used chemical treatments ofnatural fibers when used to reinforcethermoplastics and thermosets [1]. Thistreatment leads to removal of non-struc-tural materials such as wax and oils fromthe fiber surface [1], partial removal ofthe fiber cell wall polymers, i.e. hemicel-luloses and lignin [2, 3] and depolymer-ization of cellulose chains [1]. In this study alkali treatment was per-formed on kenaf bast fiber. The effect oftreatment times on the morphology andstructure of the fiber were determined viascanning electron microscopy (SEM), x-ray diffraction (XRD), fourier transforminfrared (FTIR) spectroscopy and atomicforce microscopy (AFM).
ExperimentalKenaf bast fiber with an average fiberlength of 7.70 cm was purchased fromLembaga Kenaf dan Tembakau Negara(LKTN) Malaysia. The Fiber was sub-merged in 6% solution of sodium hydrox-ide for 1, 2, 3, 4 and 5 hours of immer-sion at room temperature, rinsed withdeionized water and then neutralized indilute solution of glacial acetic acid.Finally the fiber was rinsed again withdeionized water and dried at room tem-perature for 24 h. The treated fiber wasobserved in FESEM model Supra 35 VP to
characterize the fiber surface morphology.Crystallinity index, Crl, of the fiber wasdetermined using an X-Ray Diffractometertype D8 Bruker. The equatorial diffractionpatterns (2θ) were recorded from 10 to35o using Cu-Kα radiation at 40 kV and 40mA. The crystallinity index, Crl, was calcu-lated using the following equation [5].
where I002 is the counter reading at peakintensity at a 2θ angle close to 22o repre-senting crystalline region and Iam is thecounter reading at a 2θ angle of around18o representing amorphous region innatural fibers. The infrared spectra of thefiber before and after treatment weremeasured in the spectral range of 4000 to500 cm-1 using a Perkin Elmer FTIR spec-trometer. A total of 32 scans were takenfor each sample with a resolution of 1 cm-1. The samples were prepared usinga KBr disk method. AFM characterizationswere carried out in contact mode, using aNanoNavi SPA 300HM. Surface roughnessof the fibers was analyzed based onimages obtained over a 2 μm x 2 µm area.
Results and discussionScanning electron microscopy
Observations of the treated fiber surface(Figure. 1(B)) reveal that the alkali treat-ment has resulted in the removal ofcementing materials from the interfibrillarregion and impurities from the fiber sur-face. The very similar observations havebeen reported by other researchers forgrass fibers [3]. Removal of the cement-ing materials, i.e. hemicelluloses andlignin revealed that the kenaf bast fiberconsists of aligned microfibrils. Theexposed interfibrillar region increased thespecific surface area of the fiber to comein contact with the polymer matrix duringcomposite fabrication[4]. Removal ofimpurities resulted in cleaner andsmoother fiber surface of the treatedfiber.
X-ray diffraction Crystallinity index of kenaf bast fiberimproved after 1, 2, 3 and 4 hours ofalkali treatment (Figure2). The maximumimprovement was observed after 1 hour
of treatment (+ 11%). Beyond that thecrystallinity index of the treated fiberreduced but the values were higher thanthat of the untreated fiber. After 5 hoursof treatment the crystallinity index of thetreated fiber was found to be slightlylower than the control. Changes in crys-tallinity through alkali treatment for natu-ral fibers have been reported by manyresearchers [2,5]. The improved crys-tallinity of natural fiber after the treat-ment has been attributed to the removalof the cementing materials, hemicellulos-es and lignin, which probably leads to abetter packing of cellulose chains [2] andthickening of the fiber cell wall [5]. Inaddition of removal of the cementingmaterials, alkali treatment also depoly-merizes cellulose chains [1]. After 5 hoursof treatment, excess depolymerization ofcellulose chains damage the fiber cell wallleading to an overall decrease in the cys-tallinity index of the treated fiber [5].
Fourier transform infrared (FTIR) spec-troscopyExamination of Figure 3 revealed severalchanges on the FTIR spectra of the kenafbast fibers after the alkali treatment. Thetransmission peak at 1737 cm-1, assignedto a C=O stretching vibration of carboxylicacid or ester, was found to disappear fol-lowing the alkali treatment due to the
removal of hemicelluloses [3]. Otherchanges that have been reported resultedfrom the alkali treatment are reduction inthe intensity of the transmission peaks at1515 and 1254 cm-1 which are assignedto the benzene ring vibration of lignin anda C-O stretching stretching vibration of
Buletin Enjinier, Jun 2013 10
Article 1
Figure 1: SEM micrographs of surfaces of (A) untreated and (B) 6 % alkali treated kenaf bast
fiber (treatment time = 5 hours) surfaces
Figure 2: Crystallinity index values of 6%
alkali treated kenaf bast fibers after different
treatment duration
the acetyl group in lignin component,respectively [3]. Reductions in thesetransmission peaks indicate removal oflignin from the fiber after the alkali treat-ment [3].
Atomic force microscopy (AFM)AFM images of untreated and alkali treat-ed kenaf bast fiber are shown in Fig. 4.These images illustrats the reduction ofsurface roughness via alkali treatment ofthe fiber. The untreated fiber exhibited aroot mean square (RMS) roughness valueof 21.6 nm, whereas the alkali treatedfiber exhibited 11.21 nm of RMS rough-ness. This suggests that removal of somelow-molecular weight materials as well asimpurities from the fiber surface resultingin a decrease in the fiber surface rough-ness following the alkali treatment.
ConclusionsThe morphology and structure of kenafbast fiber changed after the alkali treat-ment. SEM micrographs reveal that thefiber surface became cleaner andsmoother after the alkali treatment. Theinterfibrillar region between the microfib-rils was also well observed from themicrographs. Removal of the cementingmaterials, i.e hemicelluloses and lignin,was evident from the FTIR results.Crystallinity index increased with thetreatment but the extent of improvementafter 1 hour of treatment was limited bydegradation of cellulose chains and thefiber cell wall. The AFM results showedthat the fiber surface roughnessdecreased due to the alkali treatment.
References1. Li, X., Tabil, L. G., & Panigrahi, S.(2007). Chemical treatments of natural
fiber for use in natural fiber-reinforcedcomposites: a review. Journal of Polymersand the Environment, 15(1), 25-33.2. Gassan, J., & Bledzki, A. K. (1999).Alkali treatment of jute fibers: relationship
between structure and mechanical prop-erties. Journal of applied polymer science,71(4), 623-629.3. Liu, W., Mohanty, A. K., Drzal, L. T.,Askel, P., & Misra, M. (2004). Effects ofalkali treatment on the structure, mor-phology and thermal properties of nativegrass fibers as reinforcements for polymermatrix composites. Journal of materialsscience, 39(3), 1051-1054.4. Boynard, C. A., Monteiro, S. N., &d'Almeida, J. R. M. (2003). Aspects ofalkali treatment of sponge gourd (Luffacylindrica) fibers on the flexural properties
of polyester matrix composites. Journal ofapplied polymer science, 87(12), 1927-1932.5. Mwaikambo, L. Y., & Ansell, M. P.(2002). Chemical modification of hemp,sisal, jute, and kapok fibers by alkaliza-tion. Journal of Applied Polymer Science,84(12), 2222-2234.
PARAMETRIC PERFORMANCESTUDY OF TUNNEL BORING
MACHINE (TBM) IN THE TITIWANGSA MAIN RANGE
GRANITE, MALAYSIA
Hareyani Zabidi1, Afikah Rahim1
Abdul Ghani Mohd Rafek2
1School of Materials and MineralResources Engineering, Universiti SainsMalaysia, 14300 Nibong Tebal, Penang,Malaysia
2Geology Programme, School ofEnvironmental Sciences and NaturalResources, Faculty of Science andTechnology, Universiti KebangsaanMalaysia, Bangi, 43600, Selangor,Malaysia
AbstractThis paper presents a case study on theperformance of Tunnel Boring Machine(TBM) opted for the construction of theInterstate Raw Water Transfer (ISRWT)project currently constructed in Selangor-Pahang, Malaysia. The performance ofTBM is affected by various properties ofrock mass such as the strength of rock,the occurrence of fault zone, the joint ori-entation and the existence of a waterbearing zone. In this project, the 44 kmInterstate Raw Water Transfer tunnel isdesigned to cross solid rock along thealignment with the overburden rangesfrom just several meters at each portal tomore than one thousands meters at thecentre of the tunnel. Geology of the align-ment comprises of metasedimentary rockat the northern end and granitic rock tothe rest of the tunnel. The method usedfor this study and the evidence are dis-cussed.
Keyword: Tunnel Boring Machine (TBM),tunnelling, Titiwangsa Main RangeGranite, geomechanical, joint, wear rate
IntroductionThe growing concern of water shortage inthe western states of Peninsular Malaysiaincludes Selangor, Kuala Lumpur andPutrajaya due to the expanding popula-tion and booming economy has initiatedthe idea of channeling water from Pahangto Kuala Lumpur via a tunnel. In this proj-ect, the Malaysia Government proposedthe construction of the 44.6 km longInterstate Raw Water Transfer (ISRWT)tunnel that will transfer water fromSemantan River to the heart of KualaLumpur. The tunnel will channel rawwater from the Semantan River, near toKampung Jambu Rias, at the northeastpart of Kuala Lumpur through the MainRange to the Hulu Langat, Selangor nearto Kuala Lumpur where the water will betreated before piped to the consumers.The Interstate Raw Water Transfer tunnelis designed, for the first time to crosssolid rock of the Titiwangsa Main Rangegranite along the alignment with the over-burden ranges from just several meters ateach portal to more than one thousandmeters at the centre of the tunnel.Geology along the alignment comprises ofmetasedimentary rock at the northernend and granitic rock to rest of the tunnel.Generally, the Titiwangsa Main Range
Buletin Enjinier, Jun 2013 11
Figure 3: FTIR spectra of untreated and alkali treated kenaf bast fibers at different
treatment times.
Figure 4: Three-dimensional presentation of AFM contact mode images for (A) untreated and
(B) 6% alkali treated kenaf bast fiber (treatment time = 4 hours).
Article 2
at tunnel level throughout the route withsome part of the Karak Formation,,Semantan Formation and Jelebu SchistFormation, thus highly variable of tunnelface condition was expected to encounterthroughout the 44 km construction of thetunnel. The tunnel is designed to be con-structed in two different methods of con-struction with 70% of the alignment willbe constructed using TBM whilst the final30% of the line will be using the NewAustrian Tunnelling Method (NATM). Thepurpose of this study is to investigate theeffect of rock mass condition on TBM per-formance.Geology of the areaThe geology along the tunnel route is pre-dominantly the Main Range granitebatholith with a lesser extent of meta-sedimentary rocks of the Karak Formation(Fig. 1). The depth of the tunnel rangesfrom 25 m to 1315 m below the groundsurface as it passes through the MainRange. These zones intruded into thePaleozoic clastic and calcareous metased-iments Pitfield et al., 1990). The graniticrocks along the proposed tunnel route canbe divided into 3 types: first is the KualaLumpur Granite; second is the GentingSempah Microgranite and third is theBukit Tinggi Granite. Geochronologicalstudies indicate that the granitic rockswere emplaced during Late Triassic. TheKongkoi Fault separates the Kuala LumpurGranite from the Genting SempahMicrogranite and has a metasedimentaryscreen on its west flank. Similarly, theGenting Sempah Microgranite is separat-ed from the Bukit Tinggi Granite by theBukit Tinggi Fault. There is a systematicrelationship between the joints, flowstructures, geometry of the granite plu-tons, dykes and faults.
Specification of TBMThree identical 5.2 m diameter open typeTBMs are opted in tunnelling through thehard rock Titiwangsa Main Range Granite.Each of the TBM is designed to bore thefirst 11.670 km, second 11.670 km andthird 11.218 km respectively. The follow-ing Table 1 gives a brief sum-mary of thetechnical specification of the TBM used inthe project.
Research methodologyThe effect of rock mass quality on theperformance of TBM is studied from tun-nel distance (TD) 0 to 3000 m. Studieswere carried out based on the analysis ofthree different data collected at the tun-nel site, first is the daily tunnel mappingrecord, second is the TBM performancedata and third is the lab test results ofUCS on rock samples cored for every 50m of the tunnel. The daily mapping of thetunnel rock mass records the strength ofintact rock, joints properties and ground-water condition. The evaluation on theperformance of TBM was made based onfew parameters such as boring energy,rate of penetration (ROP) and rate perminute (RPM).
Affect of rock formations on TBMperformanceThe selection of open type TBM was madeconsidering the geological condition ofthe proposed alignment such the hardrock of Titiwangsa Main Range Granite.The granitic rock had experienced seriesof faulting and folding (Shu, 1969 &Stauffer, 1968). Few difficult excavationsby the TBM were envisaged due to theexistence of fault zones, high overburdenand potential risk of crossing water bear-ing zones. In Karak site, TBM-1 is mostunexpectedly encountered few locationsof high water bearing zones. One of thelocations is at CH8, 143 (TD1322) ofapproximately 10 ton/min (av-erage of4.1 ton/min) of sudden inrush warmwater was recorded, fig. 2. At this exactlocation, TBM recorded 46.50 N/mm2 ofboring energy, 7.10 rev/min of RPM and0.80 m/h of ROP. It was unexpected con-
dition as the three parameters of TBMshowed constant rates of reading until it’ssuddenly hit the water pocket zone.Another encountered was at CH9, 939(TD3118) to CH10, 019 (TD3198), whereappximately 10.7 ton/min of warm waterat temperature 33°C inrush into the tun-nel from highly fractured, smooth planar,closely to medium spaced joints, orientedat N180°/70°-80°. The rock mass condi-tions were generally good, classified asrock class CII to D, based on JapaneseHighway system of rock mass classifica-tion.
Whilst in TBM-2, high water ingress andface collapse are the recorded geologicalproblems encountered. The first majorwater ingress occurred at CH27, 962(TD2200) ~ CH27, 402 (TD2760), whereapproximately 5.4 ton/min of water gush-ing into the tunnel system. The secondinccident occured at CH30, 066 (TD95.2m), water ingress was recorded at 5ton/min (average 1.8 ton/min), believeddue to the occurrences of highly fracturedzone of Kongkoi Fault, positioned atCH31, 200. Tunnel face collapses wereencountered at few points of TBM-2 withmajor collapse occurred at CH 28, 591(TD 1571m) and this is believed due tothe existence of Lepoh Fault (CH28, 600).But, the collapse started to occur after theTBM passed the zone with the collapsingof loose rocks onto the TBM and createda chimney shape of hole with 50 m high
and 5 m wide above the TBM. There are many models and equationsdeveloped in estimating the performanceof TBM ahead of the boring. In many ofthe models, UCS value of rock is the mostparameter used, eventhough the usage ofUCS solely may not provide accurateresults (Cigla et. al., 2001 & Yagiz, 2006).In this project, UCS values were recordedfor every 50 m of the tunnel in addition tothe daily reading of Schimdt Hammerrebound value, fig. 3a. The two testsshowed a satisfactory correlation as therebound hardess values deacreased withthe decreasing value of UCS, particurlalyat TD800 and TD 2100 – 2500. A similarpattern is also seen in boring energy anddaily progress of TBM, fig. 3b. There wereslightly dropped of boring energy anddaily progress of TBM at TD800 and
Buletin Enjinier, Jun 2013 12
Table 1: Summary of the technical specifica-
tion of the TBM used in the tunnel project
Figure 2: High water inrush into the tunnel
at TBM-1, CH8143 of approximately 10
ton/min (average of 4.1 ton/min)
Figure 1: The geological map of the study
area
TD2100. As shown in fig. 3(a & b), excavation atTD 2100-2250 (Joint orientation =N180°E /80°) showed high grade rockthat required high type of support systembecause the presence of sheared zone offresh rock. Boring energy is low sincethere was favourable oriented of frac-tures, whereas water ingress was veryhigh at more than 300 liter/min whichweaken the rock into smaller pieces andcaused the excavation progress per day ishigh.
Discussion and conclusionThe performance of TBM, thus the costscheduling and time of project comple-tion, is greatly affected by the geologicalconditions and discontinuity properties ofrock mass. Unexpected high wateringress and poor rock mass conditionsmay reduce dramatically the averageprogress rates and practical conse-quences. Part of the problems wereexpected to occur looking at the previousgeological records and preliminary verticaldrilling carried out prior the project. But,most of the time, the ground is still unex-pectedly delivers problems towards theprogress of tunnelling.
AcknowledgementThis research project is financially sup-ported by the Ministry of HigherEducation (MOHE), Malaysia under theExploratory Research Grant Scheme(ERGS). The permission to asssess thetunnel sites and data are acknowledgedfor the support from the Ministry ofEnergy, Green Technology and Water,Malaysia.
References1. Cigla M., Yagiz, S., Ozdemir, L. 2001.Application of tunnel boring machines inunderground mining development. In:Unal, E. et al. (eds.), Proc., ofInternational Mining Congress andExhibition of Turkey, 155-164, Ankara,Turkey.2. Pitfield, P. E. J., Teoh, L. H. & Cobbing,
E. J. Textural variation and tin mineraliza-tion in granite from the main rangeprovince of the Southeast Asian Tin Belt,Volume 25, Issue 3-4, July - December1990, Pages: 419–429.3. Shu, Y. K. (1969) Some NW Trendingfaults in the Kuala Lumpur and otherareas. News. Geol. Society Malaysia. 17, 1-15 pp4. Stauffer, P. H. (1968) The KualaLumpur fault zone: A proposed majorstrike slip fault across Malaya. News.Geol. Society. 15, 2 – 4 pp5. Yagiz, S. 2006. TBM performance pre-diction based on rock properties. In:Cotthem, A. V. et. al. (ed), Proc., multi-physics coupling and long term behaviourin rock mechanics, EUROCK’ 06, 663-670.Liege, Belgium.
HARMONIC MICROSTRUCTURE OFTITANIUM FOR MECHANICALPROPERTIES IMPROVEMENT
K. Maslinda1,2, K. Ameyama2, T. Sekiguchi2
1School of Materials and MineralResources Engineering, EngineeringCampus, Universiti Sains Malaysia, 14300Nibong Tebal, Penang, Malaysia
2Department of Material Engineering,Faculty of Mechanical Engineering,Ritsumeikan University, Biwako KusatsuCampus, Shiga, Japan
Introduction
TitaniumTitanium has extraordinary propertiessuch as high bio-compatibility with highcorrosion resistance compared to othermaterials. Because of these properties,titanium is mainly used as the basic mate-rial for medical equipments. Other thanthat, as one of the lightest material thatcan be applied in metals, titanium is alsowidely used as the basic material in air-craft industries.Pure titanium has a relatively low density;4.51g/cm3, high melting point; 1941[K]with Young’s Modulus of 10.43 ×104[MPa]. Titanium possesses aHexagonal Close Packed (HCP) structurewhich is alpha-phase (α-phase) below1155±2[K]. Titanium with HCP crystalstructure is known as α-Titanium. On theother hand, above 1155±2[K], titaniumpossesses a Body Centered Cubic (BCC)structure which is beta-phase (β-phase).Titanium with BCC crystal structure isknown as β-Titanium[1]
Strengthening MechanismYield strength(σy) for most of the materi-als vary by the grain size, according to theequation known as Hall-Petch equation
shown below:
Where d is the average grain diameterwhile σ0 and ky are constants for a partic-ular material. This equation shows theinverse proportion relation between theaverage grain diameter and the yieldstrength; means that smaller grain sizewill gives higher yield strength[2]. Severe Plastic Deformation (SPD) is themain method to produce Ultra Fine Grain(UFG), structure of metals with muchimproved strength and hardness[3,4].There are various types of SPD procesesincluding Equal Channel Angular Process(ECAP)[4], High Pressure Torsion(HPT)[5], Accumulative Roll-Bonding(ARB)[6] process, etc. However,Mechanical Milling (MM) process was usedin our laboratory to carry out the SPDmethod. MM process is a powder process-ing technique that involves fracturing andwelding of powder particle in high energymilling machine[7]
Harmonic Microstructure“Harmonic microstructure” is a term usesto define a hetero-mesh microstructure ofmaterials, where fine grains structureformed at the surface region of the pow-der; known as “shell”. On the other hand,coarse grain structure formed at the inte-rior region of the powder is known as“core”. For instance, previous researchproved that harmonic microstructure ofStainless Steel (SUS316) has 1.5 timeshigher intensity ratio and 3.0 times high-er ductility ratio than conventional materi-als[8].“Shell” and “core” region are usuallyformed after the powder undergoes theMM process. After sintering process, themilled powder will form a compact metalwith continuous shell and core region.The combination of MM and sinteringprocess is called Severe PlasticDeformation-Powder Metallurgy (SPD-PM)process. Figure 1 shows the harmonicmicrostructure design; with shell and coreregion at the surface and inner part of thepowder respectively.
Buletin Enjinier, Jun 2013 13
Article 3
Figure 1: Harmonic microstructure design.
Mechanically milled powder is composed of
ultra fine grains region, “shell” and coarse
grains region, “core”. The sintered compact
with the MM powder have a harmonic
microstructure.
Figure 3: (a)-Recorded values of UCS,
Schmidt Hammer rebound; (b)-Boring energy
and execution daily progress of TBM-1
between TD 0 - 3000
Experimental Procedures
Mechanical MillingCP titanium powders were mechanicallymilled by jet mill equipment known asNano Jetmizer NJ-50 with zirconium coat-ed layer inside the main chamber. Theprocessing capacity is from 10 to 1[kg/hr]with 0.6~1.0[m3/min] airflow. The millingprocess was done at room temperature innitrogen, N2 gas atmosphere. Table 1shows the details of milled powder.
SinteringCP titanium powders were sintered by DRSINTER SCM 2000 SPS machine. The pro-cessing temperature was set to 973[K]and the load was set to 50[MPa] for0.6[ks]. Then, the sintered compactswere left cooled inside the SPS machinefor 1.8[ks] before the samples were takenout.
Results & DiscussionFrom Fifure 2, by comparing the threetypes of powder’s appearances, it can benoted that jet milled A powder has round-ed shape with bumpy surface while theinitial powder did not show any clearbumpy surface. This shows that jet milledA powder has been deformed by jetmilling process.From Figure 3, the jet milled A powderhave different sizes of grains within thepowder particles; where smaller grainsformed around the surface region (shell)whereas bigger grains formed around thecenter region (core). On the other hand,jet milled A powder and the initial powderdid not show any differences in the grainsize. The grains have irregular shape.These micrographs reveals that jet milledB powder formed shell and core regionafter jet milling process. On the otherhand, jet milled A and initial powder didnot form any clear shell and core region.
Figure 4 shows SEM micrographs of initialand jet milled A SPS compacts. From themicrographs, it can be noted that grainsin jet milled A were smaller compared tothe initial compact. At the surface of theparticle, a thin layer of shell region couldbe seen although grains inside the shellregion could not be clearly seen.These micrographs reveals that the shellregion appeared after the powder under-goes deformation through jet millingprocess under jet milled A condition.
Figure 5 shows the increasing in of aver-age hardness value from initial to jetmilled A SPS compact. This was due tothe decreasing of the total grains sizes asthe pressure of jet milling processincrease.Figure 6 shows the average, maximumand minimum values of dynamic hardnessfor initial and jet milled A SPS compacts;shell and core region. From the initial SPS
compact, it can be noted that there werenot much different in dynamic hardness
values between shell and core region.This shows that UFG did not form in theinitial powder particles, resulting in noshell region within the consolidated com-pact. However, from jet milled A SPS compact,it can be noted that there were large dif-ference between dynamic hardness val-ues of shell and core region which is 286HT. This shows that the shell region is farharder than the core region.
Furthermore, for jet milled B SPS com-pact, the maximum and minimum hard-ness values measured in shell region areover than 800 HT and not below than 300HT respectively. However, the maximumand minimum hardness values measuredin core region are below than 500 HT andover 100 HT respectively. This shows thateven in core region, the nearer the inden-tation spot to the shell region, the harderthe material become.From both of the histograms, it can benoted that the hardness values of eachshell and core region increased from ini-tial to jet milled A SPS compact. The UFGformed through jet milling process, whichcan lead to the formation of shell andcore network after they are being consol-idated by sintering process.
Buletin Enjinier, Jun 2013 14
Figure 2: SEM micrographs of powder’s
appearances (a) initial powder,(b) jet milled A.
Figure 3: SEM micgraphs of powder’s cross
section (a) initial powder, (b) jet milled A.
Figure 4 SEM micrographs of SPS compacts (a) initial, (b) jet milled A.
Figure 5: Average, maximum and minimum
values of Vickers hardness for initial and jet
milled A SPS compacts
Figure 6: Average, maximum and minimum values of dynamic hardness for initial and jet milled
A SPS compact; shell and core region
Table 1: Jet milled powder condition
(b) (b)
ConclusionsCP titanium low oxygen powders (TiLOP)were mechanically milled by jet millingprocess. The powders then were consol-idated by Spark Plasma Sintering (SPS)process. Microstructure and hardness ofconsolidated compacts were investigated.Based on the experimental results, thefollowing conclusions could be obtained. 1.Powders milled by jet milling processhave smaller grains than the initial pow-ders. The higher the air flow pressure, thesmaller the grains became.2.Consolidated compacts fabricated withhigh air flow pressure jet milled powdersshowed a thin layer of shell region with-out clear grain boundaries can be seenwithin the region.3.High air pressure jet milled compact hasa higher hardness values compared withthe initial compact.4.The shell region showed higher hard-ness value than the core region.5.Jet milling process did improve thehardness of powders and their consolidat-ed compacts by forming ultra fine grains.Increasing the air flow pressure during jetmilling process will increase the thicknessof the shell region and the hardness ofthe powders and their consolidated com-pacts. However, the problem where cleargrains cannot be seen within the shellregion should be studied in the future
References1.Titanium and Titanium Alloys,Fundamentals and Application, Edited byChristoph Leyens, Manfred Peters,WILEY-VCH, 2003.2. Ranjan Mittal, Metallurgy & MaterialsEngineering National Institute ofTechnology Rourkela, 10604038, March2009.3. N. Hansen, X. Huang, R. Ueji and N.Tsuji, Structure and strength after largestrain deformation, Mater. Sci. Eng. A,387-389 (2004)191-194.4. R. Lapovok, D. Tomus, V. Skripnyuk, M.Barnett and M. Gibson, The effect ofhydrogenation on the ECAP compactionof Ti–6Al–4V powder and the mechanicalproperties of compacts, Mater. Sci. Eng.A, 513-514 (2009) 97-108.5. Alexander P. Zhilyaev, Terence G.Langdon, Using high-pressure torsion formetal processing: Fundamentals andapplications, Progress in MaterialsScience, 53 (2008) 893-979.6. N. Tsuji, Y. Ito, Y. Saito and Y.Minamino, Strength and ductility of ultra-fine grained aluminum and iron producedby ARB and annealing, Scripta Mater., 47(2002) 893-899.7. T. Sekiguchi, K. Ono, H. Fujiwara and K.Ameyama: 「New Microstructure Designfor Commercially Pure Titanium withOutstanding Mechanical Properties byMechanical Milling and Hot Roll Sintering,Materials Transactions, The JapanInstitute of Metals,51(2010),pp.39-45.
8. H. Fujiwara, H. Tanaka, M. Nakataniand K. Ameyama: 「Effects of Nano /MesoHarmonic Microstructure onMechanical Properties in AusteniticStainless Steel Produced by MM / HRSProcess」 , Materials Science Forum,Trans Tech Publications, 638-642(2010),pp. 1790-1795.
POROUS MEDIUM STOVE WITHCOGENERATION
(Won Gold medal at ITEX 2013)
Inventors:Professor Dr. Mohd Zulkifly Abdullah
Professor Dr. Zainal Arifin AhmadAhmad Kamal Ismail
Abdul Rashid Jamaludin
Novelty and inventivenessPorous medium stove with cogenerationis a new design of porous burner fordomestic use. By using a ceramic porousmaterial as medium of combustion, thecombustion efficiency increased. Theincreased in combustion efficiency indi-cate the reduction of combustion pollu-tants such as carbon monoxide (CO) aswell. Furthermore, the novelty of thehexagonal shape of the stove ease theuse of Thermoelectric (TE) cells for electrical cogeneration by using heat dissipa-tion at the burner wall. Thus, more heatconvert to electrical power to be useddirectly for mobile phone charging. Thisleads to the increased of thermal efficien-cy of the stove.Usefulness and applicationThe porous medium stove (PMS) withcogeneration is never been developedand still not available in the market so far.This stove consist of porous medium (alu-mina and coated with silicon carbide) pro-vide lower emissions especially CO andNOx, lower fuel consumption (up to 50%fuel saving) compare to the conventionalstove, gives better thermal efficiency andhigher flame temperature. The currentprototype of PMS can be used eitherindoor or outdoor applications. The PMSalso able to be used with different fuelssuch as LPG (indoor) and butane (out-door), including extra feature with cogen-eration for mobile, torch light, radio andbattery charging. The thermoelectric cellshave been used in this cogeneration pur-poses.Market and commercial potentialNowadays, manufacturers are looking fora better option on combustion device,especially for domestic use. Most domes-tic stove in the market use gas fuel suchas LPG, methane, propane or butanefrom fossil fuel derivatives. This hydrocar-bon fuels price increased due to globalconsumer demand and the depletion ofthe fuel itself. A highly efficient PM stovehas been developed to reduce the usageof HC fuels without compromising on its
performance and value for money.Environmental FriendlinessEmissions from the PM stove were underacceptable levels and compliant withANSI standards. The present stove isenvironmentally friendly and can also beused in generation of electric power andis particularly useful in outdoor activitiessuch camping and travel.
NANOCOAT: Remedy for VOC, bacteria and fungi growing world.
(Won Gold medal at MTE 2013)
Inventors:Assoc. Prof. Dr. Srimala Sreekantan
Dr. Ong Ming ThongSiti Aida Ibrahim
Khairul Arifah SaharudinRamarao
IntroductionVarious bacteria & virus are highly trans-mitted in our environment, and will causesevere illness to weak persons & children.Besides, toxic and carcinogen gases, likeVOC and formaldehyde that are emittedafter renovation (indoor pollutants) cancause blood cancer. Here we have devel-oped NANOCOAT Nano-Solutions as aremedy for aforementioned health prob-lem. NANOCOAT is a non-carcinogenic,non-allergenic solution that protects thehealth and well being of mankind againstbacteria, fungi, toxic and carcinogengases. It can be easily applied on any sur-face for such protection.
NoveltyIn comparison with other anti-microbialsolution, NANOCOAT is safe and moreeconomical. It does not deteriorate and itshows a long-term anti microbial effect. Itis also free from binder and iso-propylalcohol, unlike the common antimicrobialsolution available commercially. Workeffectively under any light.
Benefits of using NANOCOAT *Nanosize 2-3nm-high surface area *Transparent- easy to apply to any sur-face*Multifunctional effects (Kills fungi andbacteria 99.99% and Destroy VOC99.99%) *ONE time application, last for 2 years
Buletin Enjinier, Jun 2013 15
Product 2
Sample product
Product 1
How Nanocoat works?NANOCOAT kills bacteria by inhibiting thegrowth of microorganisms by emittingoxygen radicals that penetrate and dis-rupt their cell walls. When the cell wallsare penetrated, leakage of metabolitesoccurs and other cell functions are dis-abled, thereby preventing the microor-ganism from functioning or reproducing.In terms of the effect against fungi, theNANOCOAT solution inhibits the cell fromsplitting under mitosis.
ApplicationsMost importantly, our NANOCOAT solu-tion is designed to be easily integratedinto any surface (wood, tiles, polymer,and fabric) with good adherence. Wehave proven the functionality of thismaterial in the following projects:∗Rapid KL public transport∗Setia Alam City Mall∗Gleneagles Hospital∗Little Mandarin House – Kindergarten
TCP.COM
(Won Gold medal at ITEX 2013)
Inventors:Professor Dr. Radzali Othman
Le Thi Bang
The novel process that was adjudged tobe of Gold Award merit during ITEX 2013is for the production of a cancellous-typeartificial bone replacement (the finalproduct being named as TCP.COM –TriCalcium Phosphate Composite). Theprocess starts off with the fabrication analpha-TCP (tricalcium phosphate) scaffoldthrough a proprietory method of directlysintering CaCO3 and CaHPO4.2H2O at acertain temperature. The scaffold wasthen coated with poly ɛ-caprolactone(PCL) through a special dipping process.The final composite obtained retained athree dimensional fully-interconnectedporous structure similar to human cancel-lous bone. The coated alpha-TCP scaffoldexhibited high porosity with large poresize (500–700 µm) that can be consid-ered to mimic the cancellous bone struc-ture.The compressive strength of the
alpha-TCP composite improved signifi-cantly upon PCL coating, i.e. an enhance-ment of 25 times as compared to thatbefore coating. In vitro biological evalua-tions have proven that bone marrow cellsadhered and proliferated well on the com-posites. Based on these findings, it can besafely concluded that the process is suc-cessful in producing alpha-TCP scaffoldscoated with bioresorable PCL which is ofgood potential to be used as cancellous-type artificial bone replacement.
r-RubFoam– A NOVEL SOLUTIONFOR GLOBAL OIL SPILLS
Patent Pending: PI 20094119
(Won Gold medal & Special Award atITEX 2013)
Inventors:Professor Dr. Hanafi Ismail (FASc)
Indrajith Rathnayake
Introduction The annual production of rubber was 18million tonnes in 2002. After 10 years oftime (2012) it has been increased up to26 million tonnes. Most of these rubberproducts are disposable and can cause abig impact on the environment if they arenot recovered to useful products. Themain source of waste rubber is disposablelatex products such as gloves, catheters,condoms, latex threads etc, discardedrubber products, such as: discardedtyres, rubber pipes, rubber belts, rubbershoes, edge scraps and waste productswhich are produced in rubber processes. Why turning waste rubbers into OilAbsorbent? Big potential application.Every year there were about 100 million
US gallons of oil spill(AbsorbentsOnline.com). Since 1970 –2010 there were 1,700 of oil spills withamount of 5.7 million tonnes of oil spilt.Oil spills are now common disaster in theworld. There are several threats can befound due to this oil spills on the environ-ment such as Physical and chemical alter-ation of natural habitat, lethal effect onflora and fauna and most biological com-munities are susceptible to the effects ofoil spills.
Importance of invention1.Recycle various rubber wastes such astyres, scrap gloves, catheters, motorbiketubes, etc into novel and re-usable oilabsorbent foam using Latex foam tech-nology2.Help Malaysian government to solve theenvironmental problem of disposal vari-ous rubber wastes through the recyclingof scraps into valuable products. 3.To find the simplest and a friendly solu-tion to absorb oil spills.
Novelty and Inventiveness1.Using the conventional rubber process-ing equipments, simple manufacturingprocess and low cost, all rubber wastescan be recycled to produce r-RubFoam.2.r-RubFoam –A cost effective, easy andmodern way to deal with the clean-upand removal of oil spill on land and inwater.3.Ideal for cleaning up oil spill in congest-ed areas of warehouses and factories,petrol stations, car workshops, petro-chemicals and shipping industries and allchronically spill prone areas.
Novel and Low Cost TechnologyIncorporation of oil absorbent rubberwaste powder to produce open cell foamusing latex foam technology
16Buletin Enjinier, Jun 2013
Sample product
Product 3
Product 4
Figure 2: Proliferation of bone marrow cells
on TCP.COM
Figure 1. Structure of the human bone
Sample product