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Articles

Comparison of sintering of titanium and titanium hydride powders

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Pages 12-19 | Published online: 19 Jul 2013

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Guangyu Ma, Shucheng Dong, Tuo Cheng & Orest Ivasishin. (2023) Pure Ti fabricated by cold isostatic pressing and sintering TiH2 powder. Materials and Manufacturing Processes 38:2, pages 170-179.
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Anamarija Rogina, Ivona Košić, Maja Antunović, Marica Ivanković & Hrvoje Ivanković. (2020) The bioactivity of titanium-cuttlefish bone-derived hydroxyapatite composites sintered at low temperature. Powder Metallurgy 63:4, pages 300-310.
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Sergio Luis Graciano Petroni. (2020) PM compaction equations applied for the modelling of titanium hydride powders compressibility data. Powder Metallurgy 63:1, pages 35-42.
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C. Chirico, S. Tsipas, F. Toptan & E. Gordo. (2019) Development of Ti–Nb and Ti–Nb–Fe beta alloys from TiH2 powders. Powder Metallurgy 62:1, pages 44-53.
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Zhigang Zak Fang, James D. Paramore, Pei Sun, K. S. Ravi Chandran, Ying Zhang, Yang Xia, Fei Cao, Mark Koopman & Michael Free. (2018) Powder metallurgy of titanium – past, present, and future. International Materials Reviews 63:7, pages 407-459.
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Yanan Zhang, Chunming Wang, Yeguang Zhang, Peng Cheng, Yuhang Wei, Sufen Xiao & Yungui Chen. (2017) Fabrication of low-cost Ti-1Al-8V-5Fe by powder metallurgy with TiH2 and FeV80 alloy. Materials and Manufacturing Processes 32:16, pages 1869-1873.
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Chunming Wang, Yanan Zhang, Sufen Xiao & Yungui Chen. (2017) Sintering densification of titanium hydride powders. Materials and Manufacturing Processes 32:5, pages 517-522.
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Articles from other publishers (73)

T. Chen, C. Suryanarayana & C. Yang. (2023) Advanced titanium materials processed from titanium hydride powder. Powder Technology 423, pages 118504.
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Sung-Hun Park, Kyung-Hwan Lim, Hyunjin Na, Tae-Hyuk Lee, Ho-Sang Sohn & Jungshin Kang. (2023) Scale-Up Study of Deoxidation of Off-Grade Titanium Sponge Using Magnesium Metal Under Argon and Hydrogen Mixed Gas Atmosphere. Journal of Sustainable Metallurgy 9:2, pages 497-510.
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Sung-Hun Park, So-Yeong Lee, Ho-Seong Lee, Jungshin Kang & Ho-Sang Sohn. (2023) Synthesis of Titanium Hydride Powder Via Magnesiothermic Reduction of TiCl4 in H2 gas Atmosphere. Resources Recycling 32:2, pages 19-32.
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Sung-Hun Park, So-Yeong Lee, Dae-Hyeon Lee, Jungshin Kang & Ho-Sang Sohn. (2023) Production of Titanium Hydride Powder from Titanium Tetrachloride Using Magnesium Metal in Hydrogen Gas Atmosphere. MATERIALS TRANSACTIONS 64:4, pages 904-913.
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Liang Wang, Wei-Ming Guo, Peng-Fei Sheng, Li-Fu Lin, Xiao Zong & Shang-Hua Wu. (2023) Effects of YH2 addition on pressureless sintered AlN ceramics. Journal of the European Ceramic Society 43:3, pages 862-870.
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Liu Luo, Yuchu Sun & Yongbai Tang. (2023) Cold Compaction Behavior of Unsaturated Titanium Hydride Powders: Validation of Two Compaction Equations. Metals 13:2, pages 360.
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S. G. Anikeev, N. V. Artyukhova, M. I. Kaftaranova, V. N. Khodorenko, A. S. Garin & E. S. Marchenko. (2023) Structural Characteristics and Deformation Behavior of Porous Titanium Prepared by Sintering. Inorganic Materials 59:2, pages 123-133.
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Masao Koike, Ayu Kodaira, Tomoharu Tokunaga & Takahisa Yamamoto. (2023) Apparent Sintering Activation Energy Estimated by Master Sintering Curves for 8 mol% Y<sub>2</sub>O<sub>3</sub> Doped ZrO<sub>2</sub> Polycrystals during Shrinkage-Rate Controlled Flash Sintering. MATERIALS TRANSACTIONS.
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Santiago Marcelo Cantero, César Andrés Roure, Adrián Dante Boccardo, Pedro Martín Lerman & Roberto Oscar Lucci. (2023) Desarrollo y caracterización de estructuras porosas de titanio mediante gel-casting y sinterización para aplicaciones biomédicas. Matéria (Rio de Janeiro) 28:2.
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Alexander D. Preston & Kaka Ma. (2022) Mechanism of thermal gradients in spark plasma sintering of titanium and the resultant graded microstructure: A novel strategy of incorporating master sintering curve into finite element modeling. Journal of Materials Processing Technology 310, pages 117779.
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Anis Fatehah Sa'aidi, Ahmad Farrahnoor & Hussain Zuhailawati. (2022) Influence of processing parameters on dehydrogenation of TiH2 in the preparation of Ti–Nb: A review. Heliyon 8:11, pages e11602.
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Ying Yang, Yongfeng Liang, Chan Li & Junpin Lin. (2022) Microstructure and Mechanical Properties of TiAl Matrix Composites Reinforced by Carbides. Metals 12:5, pages 790.
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C. Chirico, A. Vaz Romero, E. Gordo & S.A. Tsipas. (2022) Improvement of wear resistance of low-cost powder metallurgy β-titanium alloys for biomedical applications. Surface and Coatings Technology 434, pages 128207.
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Teddy Sjafrizal, Damon Kent, Ali Dehghan-Manshadi, Wenlong Xiao & Matthew S. Dargusch. (2022) Metastable Ti-Fe-Ge alloys with high elastic admissible strain. Materialia 21, pages 101304.
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Mariana Correa-Rossi, Liliana Romero-Resendiz, Daniel Leal-Bayerlein, Ana Garcia-Alves, Francisco Segovia-López & Vicente Amigó-Borrás. (2022) Mechanical, Corrosion, and Ion Release Studies of Ti-34Nb-6Sn Alloy with Comparable to the Bone Elastic Modulus by Powder Metallurgy Method. Powders 1:1, pages 3-17.
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Efraín Carreño-Morelli & Mikel Rodriguez-Arbaizar. 2022. Encyclopedia of Materials: Metals and Alloys. Encyclopedia of Materials: Metals and Alloys 330 342 .
Mohammad Rezaei Ardani, Sheikh Abdul Rezan Sheikh Abdul Hamid, Dominic C. Y. Foo & Abdul Rahman Mohamed. (2021) Synthesis of Ti Powder from the Reduction of TiCl4 with Metal Hydrides in the H2 Atmosphere: Thermodynamic and Techno-Economic Analyses. Processes 9:9, pages 1567.
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Ce Zhang, Fang Yang, Cunguang Chen & Zhimeng Guo. (2021) The microstructure and mechanical properties of extra low interstitials (ELI) Ti-6Al-4V alloys manufactured from hydride–dehydride (HDH) powder. Journal of Alloys and Compounds 873, pages 159757.
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Shucheng Dong, Baicheng Wang, Yuchao Song, Guangyu Ma, Huiyan Xu, Dmytro Savvakin & Orest Ivasishin. (2021) Comparative Study on Cold Compaction Behavior of TiH2 Powder and HDH-Ti Powder. Advances in Materials Science and Engineering 2021, pages 1-15.
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Shucheng Dong, Guangyu Ma, Peng Lei, Tuo Cheng, Dmytro Savvakin & Orest Ivasishin. (2021) Comparative study on the densification process of different titanium powders. Advanced Powder Technology 32:7, pages 2300-2310.
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Weide Wang, Dongxu Yao, Hanqin Liang, Yongfeng Xia, Kaihui Zuo, Jinwei Yin & Yu-Ping Zeng. (2021) Improved thermal conductivity of β-Si3N4 ceramics through the modification of the liquid phase by using GdH2 as a sintering additive. Ceramics International 47:4, pages 5631-5638.
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Weide WANG, Huanbei CHEN, Shishuai LI, Dongxu YAO, Kaihui ZUO & Yuping ZENG. (2021) Preparation of Silicon Nitride with High Thermal Conductivity and High Flexural Strength Using YbH 2 -MgO as Sintering Additive . Journal of Inorganic Materials 36:9, pages 959.
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Weide Wang, Dongxu Yao, Hanqin Liang, Yongfeng Xia, Kaihui Zuo, Jinwei Yin & Yu-Ping Zeng. (2020) Effect of in-situ formed Y2O3 by metal hydride reduction reaction on thermal conductivity of β-Si3N4 ceramics. Journal of the European Ceramic Society 40:15, pages 5316-5323.
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Cristina Ileana Pascu, Ştefan Gheorghe, Andrei Rotaru, Claudiu Nicolicescu, Nicoleta Cioateră, Adrian Sorin Roșca, Daniela Sârbu & Petre Rotaru. (2020) Ti-based composite materials with enhanced thermal and mechanical properties. Ceramics International 46:18, pages 29358-29372.
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Y.P. Dong, J.C. Tang, D.W. Wang, N. Wang, Z.D. He, J. Li, D.P. Zhao & M. Yan. (2020) Additive manufacturing of pure Ti with superior mechanical performance, low cost, and biocompatibility for potential replacement of Ti-6Al-4V. Materials & Design 196, pages 109142.
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Evan Wheat, Gitanjali Shanbhag & Mihaela Vlasea. (2020) The Master Sinter Curve and Its Application to Binder Jetting Additive Manufacturing. Journal of Manufacturing Science and Engineering 142:10.
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Binna Song, Christoph Kenel & David C. Dunand. (2020) 3D ink-extrusion printing and sintering of Ti, Ti-TiB and Ti-TiC microlattices. Additive Manufacturing 35, pages 101412.
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Randall M. German. (2020) Titanium sintering science: A review of atomic events during densification. International Journal of Refractory Metals and Hard Materials 89, pages 105214.
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Caterina Chirico, Sophia Alexandra Tsipas, Pablo Wilczynski & Elena Gordo. (2020) Beta Titanium Alloys Produced from Titanium Hydride: Effect of Alloying Elements on Titanium Hydride Decomposition. Metals 10:5, pages 682.
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Bhupendra Sharma, Sanjay Kumar Vajpai, Mie Kawabata, Takayoshi Nakano & Kei Ameyama. (2020) Microstructure and Mechanical Behavior of Ti–25Nb–25Zr Alloy Prepared from Pre-Alloyed and Hydride-Mixed Elemental Powders. MATERIALS TRANSACTIONS 61:4, pages 562-566.
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Inge Lindemann, Bernhard Gebel, Stefan Pilz, Margitta Uhlemann & Annett Gebert. (2020) Calciothermic Synthesis of Very Fine, Hydrogenated Ti and Ti–Nb Powder for Biomedical Applications. Advanced Engineering Materials 22:3, pages 1901210.
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Eduardo Reverte, Sophia A. Tsipas & Elena Gordo. (2020) Oxidation and Corrosion Behavior of New Low-Cost Ti-7Fe-3Al and Ti-7Fe-5Cr Alloys from Titanium Hydride Powders. Metals 10:2, pages 254.
Crossref
H.R. Zhang, H.Z. Niu, M.C. Zang, J.K. Yue & D.L. Zhang. (2020) Microstructures and mechanical behavior of a near α titanium alloy prepared by TiH2-based powder metallurgy. Materials Science and Engineering: A 770, pages 138570.
Crossref
Mulalo T. Tambani, Christopher Machio & Daniel M. Madyira. (2019) Machinability of green titanium powder compacts during drilling using HSS twist drills. The International Journal of Advanced Manufacturing Technology 106:5-6, pages 1723-1735.
Crossref
I. FARÍAS, L. OLMOS, O. JIMÉNEZ, M. FLORES, A. BRAEM & J. VLEUGELS. (2019) Wear modes in open porosity titanium matrix composites with TiC addition processed by spark plasma sintering. Transactions of Nonferrous Metals Society of China 29:8, pages 1653-1664.
Crossref
Yanan Zhang, Xing Guo, Yungui Chen & Qiangguo Li. (2019) Effect of compaction pressure on the densification, microstructure, and mechanical properties of Ti‐1Al‐8V‐5Fe alloy based on TiH 2 and HDH‐Ti powders . Micro & Nano Letters 14:8, pages 906-910.
Crossref
Zhigang Chen, Linshan Luo, Zaijun Su, Wenwen Liu, Fan Zhang & Yunsong Huang. (2019) Effect of LaH3 additive on microstructures and hydrogen storage properties of V40Ti26Cr26Fe8 alloys prepared by hydride powder sintering method. International Journal of Hydrogen Energy 44:26, pages 13538-13548.
Crossref
H.Z. Niu, H.R. Zhang, Q.Q. Sun & D.L. Zhang. (2019) Breaking through the strength-ductility trade-off dilemma in powder metallurgy Ti–6Al–4V titanium alloy. Materials Science and Engineering: A 754, pages 361-369.
Crossref
Gang Chen, Klaus-Dieter Liss, Peng Cao, Xin Lu & Xuanhui Qu. (2018) Neutron Diffraction and Neutron Radiography Investigation into Powder Sintering of Ti/Al and TiH2/Al Compacts. Metallurgical and Materials Transactions B 50:1, pages 429-437.
Crossref
M.R. Ardani, W.J. Ying, N. Ibrahim, S. Abdul Rezan, S. Ramakrishnan, A.F. Mohd Noor & A.R. Mohamed. (2019) Effect of Nickel as Catalyst on the Activation of Titanium Hydride (TiH2) to Titanium Trichloride (TiCl3). Materials Today: Proceedings 17, pages 743-751.
Crossref
Mohammad Rezaei Ardani, Aws Sadoon Mohammed Al Janabi, Sanjith Udayakumar, Sheikh Abdul Rezan Sheikh Abdul Hamid, Abdul Rahman Mohamed, H. L. Lee & Ismail Ibrahim. 2019. Rare Metal Technology 2019. Rare Metal Technology 2019 131 144 .
Yuhang Wei, Chunming Wang, Yeguang Zhang, Libo Mei, Sufen Xiao & Yungui Chen. (2018) The Compactibility of Unsaturated Titanium Hydride Powders. Journal of Materials Engineering and Performance 27:11, pages 5752-5761.
Crossref
Tomoyuki Fujii, Keiichiro Tohgo, Masahiro Iwao & Yoshinobu Shimamura. (2018) Fracture toughness distribution of alumina-titanium functionally graded materials fabricated by spark plasma sintering. Journal of Alloys and Compounds 766, pages 1-11.
Crossref
X. Zhao, F. Neves, J. B. Correia, K. Liu, F. M. Braz Fernades, V. Koledov, S. von Gratowski, S. Xu & J. Huang. (2018) Mechanical activation of pre-alloyed NiTi2 and elemental Ni for the synthesis of NiTi alloys. Journal of Materials Science 53:19, pages 13432-13441.
Crossref
Tomoyuki Fujii, Keiichiro Tohgo, Masahiro Iwao & Yoshinobu Shimamura. (2018) Fabrication of alumina-titanium composites by spark plasma sintering and their mechanical properties. Journal of Alloys and Compounds 744, pages 759-768.
Crossref
Inge Lindemann, Romy Schmidt, Stefan Pilz, Bernhard Gebel, Angelika Teresiak & Annett Gebert. (2017) Ultrafine-grained Ti-40Nb prepared by reactive milling of the elements in hydrogen. Journal of Alloys and Compounds 729, pages 1244-1249.
Crossref
Yeguang Zhang, Chunming Wang, Yang Liu, Shaopeng Liu, Sufen Xiao & Yungui Chen. (2017) Surface characterizations of TiH2 powders before and after dehydrogenation. Applied Surface Science 410, pages 177-185.
Crossref
Gang Chen, Klaus D. Liss, Graeme Auchterlonie, Huiping Tang & Peng Cao. (2017) Dehydrogenation and Sintering of TiH2: An In Situ Study. Metallurgical and Materials Transactions A 48:6, pages 2949-2959.
Crossref
Inge Lindemann, Monika Herrich, Bernhard Gebel, Romy Schmidt, Ulrich Stoeck, Margitta Uhlemann & Annett Gebert. (2017) Synthesis of spherical nanocrystalline titanium hydride powder via calciothermic low temperature reduction. Scripta Materialia 130, pages 256-259.
Crossref
Han-Eol Lee, Yeon Su Kim & Sung-Tag Oh. (2017) Effect of Heat Treatment Temperature and Atmosphere on the Microstructure of TiH2-WO3 Powder Mixtures. Journal of Korean Powder Metallurgy Institute 24:1, pages 41-45.
Crossref
Yifeng Zheng, Xun Yao, Yongjun Su & D.L. Zhang. (2017) High strength titanium with a bimodal microstructure fabricated by thermomechanical consolidation of a nanocrystalline TiH 2 powder. Materials Science and Engineering: A 686, pages 11-18.
Crossref
Chunming Wang, Yeguang Zhang, Yuhang Wei, Libo Mei, Sufen Xiao & Yungui Chen. (2016) XPS study of the deoxidization behavior of hydrogen in TiH 2 powders. Powder Technology 302, pages 423-425.
Crossref
Chunming Wang, Long Pan, Yanan Zhang, Sufen Xiao & Yungui Chen. (2016) Deoxidization mechanism of hydrogen in TiH2 dehydrogenation process. International Journal of Hydrogen Energy 41:33, pages 14836-14841.
Crossref
Y.F. Zheng, X. Yao, Y.J. Su & D.L. Zhang. (2016) Fabrication of an in-situ Ti-2.6vol%TiC metal matrix composite by thermomechanical consolidation of a TiH2-1vol%CNTs powder blend. Materials Science and Engineering: A 667, pages 300-310.
Crossref
Yifeng Zheng, Xun Yao, Jiamiao Liang & Deliang Zhang. (2016) Microstructures and Tensile Mechanical Properties of Titanium Rods Made by Powder Compact Extrusion of a Titanium Hydride Powder. Metallurgical and Materials Transactions A 47:4, pages 1842-1853.
Crossref
C. Machio, R. Machaka & H.K. Chikwanda. (2016) Consolidation of titanium hydride powders during the production of titanium PM parts: The effect of die wall lubricants. Materials & Design 90, pages 757-766.
Crossref
Ki Cheol Jeon, Han-Eol Lee, Da-Mi Yim & Sung-Tag Oh. (2015) Synthesis of NiTi Alloy Powder by the Reaction of NiO-TiH2 Mixing Powders. Journal of Korean Powder Metallurgy Institute 22:4, pages 266-270.
Crossref
Jia Lou, Brian Gabbitas, Deliang Zhang & Fei Yang. (2015) Effects of Initial Powder Compact Thickness, Lubrication, and Particle Morphology on the Cold Compaction Behavior of Ti Powder. Metallurgical and Materials Transactions A 46:8, pages 3646-3655.
Crossref
Gang Chen, Klaus-Dieter Liss & Peng Cao. (2015) An in situ Study of NiTi Powder Sintering Using Neutron Diffraction. Metals 5:2, pages 530-546.
Crossref
Dong-Won Lee, Hak-Sung Lee, Ji-Hwan Park, Shun-Myung Shin & Jei-Pil Wang. (2015) Sintering of Titanium Hydride Powder Compaction. Procedia Manufacturing 2, pages 550-557.
Crossref
Ming Yan. 2015. Titanium Powder Metallurgy. Titanium Powder Metallurgy 555 578 .
James D. Paramore, Z. Zak Fang & Pei Sun. 2015. Titanium Powder Metallurgy. Titanium Powder Metallurgy 163 182 .
Ming Yan, M. S. Dargusch, C. Kong, J. A. Kimpton, S. Kohara, M. Brandt & M. Qian. (2014) In Situ Synchrotron Radiation Study of TiH2-6Al-4V and Ti-6Al-4V: Accelerated Alloying and Phase Transformation, and Formation of an Oxygen-Enriched Ti4Fe2O Phase in TiH2-6Al-4V. Metallurgical and Materials Transactions A 46:1, pages 41-45.
Crossref
Su-In Lee, Jung-Yeul Yun, Tae-Soo Lim, Byoung-Kee Kim, Young-Min Kong, Jei-Pil Wang & Dong-Won Lee. (2014) Titanizing on the surface of iron metal foam. Thermochimica Acta 581, pages 87-91.
Crossref
Gang Chen, Klaus-Dieter Liss & Peng Cao. (2014) In situ observation and neutron diffraction of NiTi powder sintering. Acta Materialia 67, pages 32-44.
Crossref
TMSGang Chen, Klaus-Dieter Liss & Peng Cao. 2014. TMS 2014 Supplemental Proceedings. TMS 2014 Supplemental Proceedings 967 973 .
Gang Chen, Klaus-Dieter Liss & Peng Cao. 2016. TMS 2014: 143rd Annual Meeting & Exhibition. TMS 2014: 143rd Annual Meeting & Exhibition 967 973 .
Gang Chen & Peng Cao. (2013) NiTi Powder Sintering from TiH2 Powder: An In Situ Investigation. Metallurgical and Materials Transactions A 44:13, pages 5630-5633.
Crossref
S.D. Luo, Y.F. Yang, G.B. Schaffer & M. Qian. (2013) Novel fabrication of titanium by pure microwave radiation of titanium hydride powder. Scripta Materialia 69:1, pages 69-72.
Crossref
M. Yan, Y. Liu, Y.B. Liu, C. Kong, G.B. Schaffer & M. Qian. (2012) Simultaneous gettering of oxygen and chlorine and homogenization of the β phase by rare earth hydride additions to a powder metallurgy Ti–2.25Mo–1.5Fe alloy. Scripta Materialia 67:5, pages 491-494.
Crossref
Christian Haase, Rimma Lapovok, Hoi Pang Ng & Yuri Estrin. (2012) Production of Ti–6Al–4V billet through compaction of blended elemental powders by equal-channel angular pressing. Materials Science and Engineering: A 550, pages 263-272.
Crossref
Anil K. Sachdev, Kaustubh Kulkarni, Zhigang Zak Fang, Rui Yang & Vladimir Girshov. (2012) Titanium for Automotive Applications: Challenges and Opportunities in Materials and Processing. JOM 64:5, pages 553-565.
Crossref
Alexander David Preston & Kaka Ma. (2022) Incorporation of the Master Sintering Curve into Finite Element Modeling with Experimental Verification to Understand Gradients in Spark Plasma Sintering. SSRN Electronic Journal.
Crossref

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