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Ditemukan 21 dokumen yang sesuai dengan query
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SMST-2007: proceedings of the international conference on shape memory and superelastic technologies, December 2–5, 2007, Tsukuba, Japan
"The SMST Conferences focus on real-world issues and applications of shape memory materials. This volume includes more than 75 edited technical papers and is an excellent reference on the latest technical advances, industrial applications, and current state-of-the-art in shape memory and superelastic technologies."
Materials Park, Ohio: ASM International, 2008
e20442500
eBooks  Universitas Indonesia Library
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SMST 2003: proceedings of the international conference on shape memory and superelastic technologies
"The SMST Conferences are a series of shape memory industry conferences focusing on real-world issues and applications of shape memory materials. Each volume of the proceedings contains over 100 technical papers and is an excellent reference on the current state-of-the-art in the shape memory and superelastic industry.
Topics covered include Medical and Dental Applications, Biocompatibility, Corrosion, Actuators, Connectors, Alloy Processing, Manufacturing Issues, Laser Processing, Design, Finite Element Analysis, and Shape Memory Thin Films."
Menlo Park, California: SMST Society, 2004
e20451741
eBooks  Universitas Indonesia Library
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SMST-2004: proceedings of the international conference on shape memory and superelastic technologies, October 3?7, 2004 Kurhaus Baden-Baden Baden-Baden, Germany
"The SMST Conferences focus on real-world issues and applications of shape memory materials. This volume includes more than 100 edited technical papers and is an excellent reference on the latest technical advances, industrial applications, and current state of-the-art in shape memory and superelastic technologies."
Materials Park, Ohio: ASM International, 2006
e20451847
eBooks  Universitas Indonesia Library
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SMST-2006: proceedings of the international conference on shape memory and superelastic technologies, May 7?11, 2006 Asilomar Conference Center pacific Grove, California, USA
"Edited by B. Berg, M.R. Mitchell, J. Proft Audience Engineers and researches involved in the application and study of shape memory and superelastic technologies."
Materials Park, Ohio: ASM International, 2008
e20451937
eBooks  Universitas Indonesia Library
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SMST-2000: proceedings of the international conference on shape memory and superelastic technologies
"The SMST Conferences are a series of shape memory industry conferences focusing on real-world issues and applications of shape memory materials. Each volume of the proceedings contains over 100 technical papers and is an excellent reference on the current state-of-the-art in the shape memory and superelastic industry. Topics covered include medical and dental applications, biocompatibility, corrosion, actuators, connectors, alloy processing, manufacturing issues, laser processing, design, finite element analysis, and shape memory thin films."
Materials Park, Ohio: ASM International, 2001
e20451980
eBooks  Universitas Indonesia Library
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Temperatur transformasi fasa shape memory alloy tini hasil pemaduan teknik ARC - Melting
"Phase trnasformation temperature of shape memory alloy - Tini produced by arc - melting technique. The observation of phase trnasformation temperature of Tini alloys produced by arc - melting technique was carried out by alloying Ti - 53%w Ni. Tini alloys were tempered at 900oC and then followed by quenching at 20oC and 5oC and finally were aged at 400oC for 1,4 and 16 hours. The Ti-53%. Ni alloyed is applied to obtain as shape memory alloys base on Tini . The Tini sample was analyzed by optical microscope, X - ray diffraction and simultaneous symmetrical thermoanalyzer (STA) . The result show that the martensitic phase has a structure of BCT (bODY CENTER TETRAGONAL) formed at room temperarure. The phase transformation temperature from martensitic - austensitic phase was taken place at (162+5)oC"
Artikel Jurnal  Universitas Indonesia Library
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Masrudin
Pengaruh penambahan nanopartikel fe3O4 pada sifat shape memory polyurethane = Effect nanoparticles fe3O4 addition in shape memory polyurethane properties / Masrudin
"ABSTRAK
Shape Memory Polyurethane (SMPU) telah disintesis dari penambahan polyethylene glycol (PEG-6000) sebagai segmen lunak dan 4,4'-Methylenebis (Cyclohexyl isocyanate) (HMDI) sebagai segmen keras serta 1,1,1-Trimethylol propane (TMP) sebagai chain extender. SMPU lalu ditambahkan nanopartikel Fe3O4 berukuran 20-50 nm untuk meningkatkan sifat kemagnetan. Untuk mengkonfimasi bentuk ikatan antarmuka komposit SMPU digunakan FTIR (Fourier Transform Infrared Spectroscopy). FE-SEM digunakan untuk mengetahui interface dari filler dan matriks SMPU. Konfirmasi nilai kemagnetan menggunakan VSM (vibrating sampel magnetometer) dan pengujian tarik menggunakan microtensile menunjukkan bahwa penambahan Fe3O4 dengan persentase 11 wt% menghasilkan nilai kemagnetan dan sifat mekanik tertinggi.
ABSTRACT
Shape Memory Polyurethane (SMPU) has been synthesized by reacting polyethylene glycol (PEG-6000) as softsegment, 4,4'-Methylenebis (Cyclohexyl isocyanate) (HMDI) as hardsegment and 1,1,1-Trimethylol propane (TMP) as chain extender. SMPU was added by Fe3O4 as filler to provide magnetical property. Magnetite which had confirmed by Scanning Elctron Magnetic (SEM) have size 20-50 nm. Functional group was investigated by FTIR (Fourier Transform Infrared Spectroscopy). The magnetic behavior of the nanocomposites was observed by vibrating sample margnetometer (VSM). FE-SEM is used to acknowledge interface between filler and Shape Memory Polyurethane (SMPU) matrix. Mechanical properties tested by microtensile testing showed adding 11% Fe3O4 obtaining magnetic and nanocomposites SMPU resulted in improved materials with higher magnetical and mechanical properties."
2015
S59575
UI - Skripsi Membership  Universitas Indonesia Library
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Panjaitan, Elman
Pengaruh proses penuaan terhadap presipitasi dan temperatur transformasi ingat bentuk paduan Ti-50.04%at.Ni
"Penelitian presipitasi pada paduan logam ingat bentuk (shape memory alloy) TiNi dan pengaruhnya terhadap temperatur transformasi, telah banyak dilakukan. Hasilnya antara lain menyatakan bahwa terbentuknya presipitat T13Ni4 dapat mengakibatkan paduan ingat bentuk TiNi peka terhadap perubahan temperatur laku panas, tetapi apabila presipitat tumbuh hingga mencapai fasa kesetimbangan, yaitu presipitat TiNi3, paduan ingat bentuk tidak menunjukan adanya fasa antara saat terjadi transformasi.
Dalam penelitian ini, telah dilakukan penelitian pengaruh proses penuaan terhadap presipitasi dan temperatur transformasi ingat bentuk paduan Ti-50.04%at. Ni, dengan tujuan untuk mengetahui karakteristik presipitat dan temperatur paduan Ti-50,04%at.Ni yang dituakan pada tempertaur 550 °C selama 1, 2, 5, 10, 20 dan 30 jam, pengamatan dilakukan menggunakan beberapa metoda yaitu mikroskop optik, mikroskop elektron transmisi (Transmission Electron Microscope - TEM) dan metoda tahanan listrik four probe.
Hasil penelitian menunjukan bahwa paduan Ti-50.04%at.Ni, akibat laku panas penuaan berfasa martensit dengan orientasi pelat yang acak. Presipitat yang terbentuk adalah TiNi3 yang tumbuh pada orientasi tertentu, yaitu sesuai dengan hubungan [2021]TmNi3 // [020]Matriks, sedangkan temperatur transformasi tidak menunjukan perubahan yang berarti sebagai akibat perlakuan penuaan.
Examination of precipitate of TiNi shape memory alloy on temperature transformation has been done by many scientists. They observed that Ti3Ni4 precipitate can affect the transformation temperature of the alloy by heat treatment. If precipitate grows into stability phase, i.e. TiNi3 phase, shape memory alloy failed to show intermediate phase. In this research work aging process on precipitation and transformation temperature of Ti-50.04%at.Ni shape memory alloy were carried out.
The aim was study the characteristics of precipitate and transformation temperature of Ti-50.04 %at.Ni alloy which were aged at 550 °C for 1, 2, 5, 10, 20 and 30 hours. The testing method use optical microscope, Transmission Electron Microscope (TEM) and four-probe electric resistance.
Experimental results show that Ti-50.04%at.Ni alloy, which were effected by aging treatment have martensite phase. This martensitic is arranged by fine-laths with random orientation. Type of precipitates observed is TiNi3 and they grow through fixed orientation, i.e. [2021]TiNi3 11 [020]Matrix. Furthermore in this study, the transformation temperature were not significantly affected by aging treatment."
Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 1999
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UI - Tesis Membership  Universitas Indonesia Library
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Sunyoto
Karakteristik Termo-Mekanis Paduan Ingat Bentuk ("Shape Memory Alloy")
"Paduan ingat bentuk ("shape memory alloy") mempunyai prospek yang baik dan telah diaplikasikan pada berbagai komponen otomotif, sistem pengontrol, sistem pengaman dan sebagainya. Salah satu jenis paduan ingat bentuk yang banyak dikembangkan adalah paduan berbasis tembaga (Cu-based alloy). Dalam aplikasinya sering ditemui permasalahan terutama mengenai proses pembuatannya dan mengenai karakteristik termo-mekanis paduan termasuk akurasi suhu transformasinya, serta "cold-workability"-nya yang kurang baik sehingga perlu ditingkatkan[1]. Dalam penelitian ini dilakukan pengecoran paduan Cu-Zn-Al, baik tanpa penghalus butiran maupun dengan menambahkan penghalus butiran, untuk memahami proses pembuatan paduan. Kemudian hasil coran yang diperoleh diberi laku panas sehingga diperoleh paduan ingat bentuk dan selanjutnya dilakukan pengamatan metalografi untuk mengetahui struktur mikro paduan dan menentukan ukuran butir, serta dilakukan uji kekerasan dan uji termo-mekanis untuk menentukan suhu transformasinya. Dari paduan ingat bentuk yang diperoleh yaitu paduan Cu-24,8%(berat}Zn-3,78%(berat)A1 dihasilkan aktuator pegas ulir tekan dengan suhu transformasi A5=57°C yang kemudian diaplikasikan secara serf dengan pegas pembalik (konstanta pegas k=0,232 N/mm2), sehingga dapat diperoleh grafik yang memberikan hubungan aniara gaya tekan dan langkah yang dihasilkan aktuator pada suhu tertentu. Selanjutnya dilakukan pengecoran berikutnya tanpa dan dengan penambahan elemen penghalus butiran. Dan pengecoran ini diperoleh 2 macam paduan dengan komposisi masing-masing adalah Cu 21,06%(berat)Zn-6,01% (berat)A1 dan Cu-20,21% (berat)Zn-5,83% (berat)A1-O,1 % (berat)Zr. Dari paduan dengan komposisi Cu 21,06%(berat)Zn-i,01%(berat)A1 dihasilkan aktuator ingat bentuk berbentuk pelat dengan suhu transformasi A5
Shape memory alloy has an excellent future. It is applied in various fields such as automotive components, control system, safety system, and so on. Among the alloy, Cu-based alloy has been a prime interest of engineer for years. In the application, it is commonly encountered problems related to its manufacturing process and thermomechanic characteristics including temperature transformation accuracy, and its cold-workability which is considered imperfect[l]. In this work, the casting process of Cu-Zn-Al was investigated for both with and without grain refining. Then heat treatment was applied to the alloy in order to gain its shape memory property. Furthermore, various investigations were carried out such as metalographic assessment for obtaining the micro-structure and the grain size, hardness test and thermo-mechanic test for determining the temperature transformation of the alloy. From the casting alloy with a composition of Cu-24.8%(weight)Zn-3.78%(weight)Al, it was produced a compression helical-spring actuator with temperature transformation As of 570C, then connected in series with a bias spring (stiffness k of 0.232 N/mm2) to provide a force versus deflection curve at a specified temperature. Moreover the next casting produced and investigated were Cu-21.06% (weight)Zn-6.01 % {weight}Al and Cu-20.21 % (weight)Zn-5.83 % (weight)Al-0.1 % (weight)Zr alloys. The first alloy is processed to be flat actuators with transformation temperature As less than RT(Room Temperature) and its grain size relatively coarse (the average diameter about 800 µm). While the latter alloy is also processed to be flat shape memory actuators with transformation temperature As of 41.5°C and its grain size relatively fine (the average diameter about 260 µm). It is found that small addition of Zr result in finer the grain size and improve the hardness of the alloy."
Depok: Universitas Indonesia, 1998
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UI - Tesis Membership  Universitas Indonesia Library
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Rizky Eka Purnama
Pengaruh Waktu Agitasi Hidroksiapatit pada Modifikasi Permukaan Scaffold Berpori Berbahan Dasar Polylactic Acid (PLA) terhadap Sifat Shape Memory Effect dan Bioaktivitas = The Influence of Hydroxyapatit Agitation Time on Surface Modification of Porous Scaffold Based on Polylactic Acid (PLA) towards Shape Memory Effect and Bioactivity
"Inovasi dalam bidang rekayasa jaringan dan manufaktur aditif mendorong pengembangan scaffold tulang cerdas yang dapat disesuaikan secara kustomisasi. Scaffold cerdas ini meniru sifat mekanik dan biologis tulang asli, dan memiliki kemampuan self-fitting. Penelitian ini bertujuan untuk menguji pengaruh penambahan senyawa bioaktif hidroksiapatit (HAp) pada scaffold berbahan PLA yang dibuat menggunakan metode pencetakan 3D FDM. Scaffold PLA kemudian dilapisi dengan lapisan HAp melalui proses perlakuan alkali selama 1 jam, diikuti dengan coating dispersi 1% w/v HAp. Penambahan HAp bertujuan untuk meningkatkan biokompatibilitas dan bioaktivitas scaffold. Variabel yang diamati dalam penelitian ini adalah waktu agitasi coating dispersi HAp, yaitu 0,5, 1, dan 2 jam. Pengaruh waktu agitasi terhadap bioaktivitas dan sifat mekanik scaffold diamati melalui pengujian imersi dalam larutan simulasi cairan tubuh (r-SBF), pengujian swelling, observasi visual menggunakan mikroskop optik, SEM & EDS, dan pengujian kompresi dinamis. Hasil pengujian imersi menunjukkan bahwa scaffold PLA/HAp memiliki bioaktivitas enam kali lipat dibandingkan dengan scaffold PLA dengan variabel 1% w/v HAp-1 jam sebagai kondisi optimal. Deposisi mineral apatit terjadi selama tujuh minggu imersi dalam r-SBF, sedangkan perubahan warna PLA terjadi pada minggu ketiga hingga keempat. Hasil SEM & EDS pada scaffold imersi r-SBF selama 7 minggu menunjukkan ukuran deposisi apatit lebih besar pada sampel PLA/HAp, munculnya porositas pada permukaan scaffold, dan retakan permukaan. Hasil pengujian swelling menunjukkan peningkatan rasio swelling seiring peningkatan waktu agitasi, yang menunjukkan peningkatan sifat hidrofilik scaffold. Namun, penambahan waktu agitasi juga berhubungan dengan penurunan kemampuan self-fitting scaffold. Scaffold PLA dapat mengalami enam siklus kompresi dan pemulihan sebelum mengalami kegagalan, sebesar 97-99%. Sementara itu, scaffold PLA/HAp mengalami kegagalan setelah dua siklus kompresi dan pemulihan, dengan pemulihan mencapai 90-91% akibat intrusi HAp pada penampang strut. Secara keseluruhan, penambahan HAp pada scaffold berbasis PLA meningkatkan biokompatibilitas dan bioaktivitas. Kondisi optimalnya adalah 1% w/v HAp-1 jam, memberikan solusi yang menjanjikan untuk aplikasi regenerasi medis dan rekayasa jaringan.
Innovation in the field of tissue engineering and additive manufacturing is driving the development of customizable smart bone scaffolds. These smart scaffolds mimic the mechanical and biological properties of natural bone and possess self-fitting capabilities. This research aims to investigate the influence of adding bioactive compound hydroxyapatit (HAp) to PLA-based scaffolds produced using the FDM 3D printing method. The PLA scaffold was subsequently coated with an HAp layer through an alkaline treatment process for 1 hour, followed by a 1% w/v HAp dispersion coating. The addition of HAp aims to enhance the biocompatibility and bioactivity of the scaffold. The variable observed in this study is the agitation time for the HAp dispersion coating, which was set at 0.5, 1, and 2 hours. The influence of agitation time on the bioactivity and mechanical properties of the scaffold was evaluated through immersion testing in simulated body fluid (r-SBF), swelling testing, visual observation using optical microscopy, SEM & EDS analysis, and dynamic compression testing. The immersion test results revealed that the PLA/HAp scaffold exhibited six times higher bioactivity compared to the PLA scaffold, with the optimal condition being 1% w/v HAp-1 hour. Apatit mineral deposition occurred during a seven-week immersion in r-SBF, while PLA color change was observed from the third to fourth week. SEM & EDS analysis of the scaffolds immersed in r-SBF for seven weeks showed larger apatit deposition on the PLA/HAp samples, the appearance of surface porosity in the scaffold, and surface cracking. Swelling testing demonstrated an increase in swelling ratio with longer agitation time, indicating improved hydrophilic properties of the scaffold. However, longer agitation time was also associated with a decrease in the self-fitting ability of the scaffold. The PLA scaffold endured six cycles of compression and recovery before failure, with a recovery rate of 97-99%. In contrast, the PLA/HAp scaffold failed after two cycles of compression and recovery, with a recovery rate of 90-91% due to HAp intrusion into the strut cross-section. In summary, adding HAp to PLA-based scaffolds enhances biocompatibility and bioactivity. The optimal condition is 1% w/v HAp-1 hour, providing a promising solution for regenerative medicine and tissue engineering applications."
Depok: Fakultas Teknik Universitas Indonesia, 2023
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UI - Skripsi Membership  Universitas Indonesia Library
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