Microstructures and MechanicalProperties Of Ti-Nb Alloy at Different Composition of Nb Produced Via Powder Metallurgy Route

机译：通过粉末冶金途径产生不同组成Ti-Nb合金的微观结构和力学性能

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The aim of this study is to evaluate the effect of phase formation to the mechanical strength of Ti-Nb alloy produced by powder metallurgy (PM) process. Niobium (Nb) powder was added to the elemental titanium (Ti) powder by wt%, cold-compacted and sintered at 1200°C. The samples were characterized in term of shape and sizes of the particle, phases present, microstructures and compressive strength. XRD pattern showed that increasing Nb content resulted in increased beta-phases which also evidenced by a greater fraction of light gray-scale image in back-scattered SEM analysis. The alpha phase region almost eliminated in the 35 wt% Nb. The lowest compressive strength was observed in 45 wt% Nb is due to partly crystallized region in the microstructure observed. The alloy containing 35 wt% Nb exhibited better beta-phase structures in the matrix. The Young's modulus of 13.46±2.44 GPa were obtained from 45 wt% Nb addition in the Ti alloy. All sintered samples are potential candidates for implant applications.

机译：本研究的目的是评估相位形成对粉末冶金（PM）工艺产生的Ti-NB合金的机械强度的影响。通过Wt％，冷压实和在1200℃下烧结将铌（Nb）粉末加入基元钛（Ti）粉末中。样品的特征在于颗粒的形状和尺寸，存在的相，微观结构和抗压强度。 XRD图案显示增加的Nb含量导致增加的β相，这也通过背部散射SEM分析中的浅灰度图像的更大浅灰度图像来证明。 α相区域几乎消除在35wt％的Nb中。在45wt％Nb中观察到最低抗压强度是由于观察到的微观结构中的部分结晶区域。含有35wt％Nb的合金在基质中表现出更好的β相结构。从Ti合金中的45wt％的Nb加入获得13.46±2.44GPa的杨氏模量。所有烧结样品都是植入应用的潜在候选者。

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《International Conference on Materials Science and Nanotechnology》|2016年|ix 164 p. :|共5页
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作者
Mazyan Yahaya; Salhana Sahidin@Salehudin; Maheran Sulaiman; Nur Hidayatul Nadhirah Elmi Azham Shah; Muhammad Hussain Ismail;
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中图分类 TB383-532;
关键词
Beta phase; powder metallurgy; sintering; Young's modulus;

机译：β相;粉末冶金;烧结;杨氏模量;

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1. Microstructures and Mechanical Properties Of Ti-Nb Alloy at Different Composition of Nb Produced Via Powder Metallurgy Route [J] . Mazyan Yahaya, Salhana Sahidin@Salehudin, Maheran Sulaiman, Materials science forum . 2016,第期

机译：粉末冶金法生产不同Nb含量的Ti-Nb合金的组织和力学性能
2. Microstructure and properties of beta Ti-Nb alloy prepared by powder metallurgy route using titanium hydride powder [J] . Sharma Bhupendra, Vajpai Sanjay Kumar, Ameyama Kei Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2016,第Null期

机译：氢化钛粉末粉末冶金法制备β-Ti-Nb合金的组织与性能
3. Effect of sintering procedure on microstructure and mechanical properties of biomedical TiNbSn alloy produced via powder metallurgy [J] . OEmer Cakmak, Mehmet Kaya Applied Physics . 2021,第7期

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4. Microstructures and MechanicalProperties Of Ti-Nb Alloy at Different Composition of Nb Produced Via Powder Metallurgy Route [C] . Mazyan Yahaya, Salhana Sahidin@Salehudin, Maheran Sulaiman, International Conference on Materials Science and Nanotechnology . 2016

机译：通过粉末冶金途径产生不同组成Ti-Nb合金的微观结构和力学性能
5. The Influence of Sc and Zr Additions on the Microstructure and Mechanical Behavior of Ultrafine Grained Al-Mg Alloys Processed by Powder Metallurgy. [D] . Harrell, Tammy Jeanne. 2014

机译：Sc和Zr的添加对粉末冶金超细晶粒Al-Mg合金的组织和力学行为的影响。
6. Data on processing of Ti-25Nb-25Zr β-titanium alloys via powder metallurgy route: Methodology microstructure and mechanical properties [O] . D. Ueda, G. Dirras, A. Hocini, 2018

机译：粉末冶金工艺加工Ti-25Nb-25Zrβ-钛合金的数据：方法显微组织和力学性能
7. Phase Composition and Microstructure of Ti-Nb Alloy Produced by Selective Laser Melting [O] . Yu P Sharkeev, A Yu Eroshenko, Zh G Kovalevskaya, 2016

机译：选择性激光熔化产生的Ti-Nb合金的相组合物和微观结构
8. Correlation of Processing Parameters, Microstructure, and Mechanical Properties of High Strength Powder Metallurgically Produced Aluminum Alloys [R] . Voss, D. 1979

机译：高强度粉末冶金铝合金工艺参数，组织和力学性能的相关性

Microstructures and MechanicalProperties Of Ti-Nb Alloy at Different Composition of Nb Produced Via Powder Metallurgy Route

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