Effects of materials and solution temperatures on cavitation erosion of pure titanium and titanium alloy in seawater

Hiromi Mochizuki; Motohiro Yokota; Shuji Hattori

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Effects of materials and solution temperatures on cavitation erosion of pure titanium and titanium alloy in seawater

机译：材料和固溶温度对海水中纯钛和钛合金空化侵蚀的影响

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Cavitation erosion was studied for various pure titanium and titanium alloy samples using a rotating disk method in seawater at 303, 318, and 333 K. Their respective erosion resistances were evaluated in terms of Vickers hardness (HV). The resistance increased in order with increasing hardness: pure titanium samples of first, second, and third types, and titanium alloy (Ti-6Al-4V). The relative temperature was defined as 273 K for freezing temperature and 373 K for boiling temperature under pressurized water. The volume loss rate of test specimens increased with rising seawater temperature of 289-316 K of the relative temperature, as well as in cases using cavitating liquid jet and vibratory apparatuses.

机译：使用旋转盘法在303、318和333 K的海水中研究了各种纯钛和钛合金样品的空化腐蚀。以维氏硬度（HV）评估了它们各自的耐蚀性。电阻随硬度的增加而依次增加：第一，第二和第三类型的纯钛样品以及钛合金（Ti-6Al-4V）。在加压水中，相对温度定义为冷冻温度为273 K，沸腾温度为373K。随着海水温度上升到相对温度289-316 K，以及使用空化液体喷射和振动设备的情况下，试样的体积损失率增加。

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来源
《Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear》 |2007年第6期|共7页
作者
Hiromi Mochizuki; Motohiro Yokota; Shuji Hattori;
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正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Cavitation erosion; Hardness; Pure titanium; Titanium alloy; Seawater; Temperature; Rotating disk method; Volume loss curve; Volume loss rate curve; SEM;

机译：空蚀;硬度;纯钛;钛合金;海水;温度;转盘法;体积损失曲线;体积损失率曲线;SEM;

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1. Effects of materials and solution temperatures on cavitation erosion of pure titanium and titanium alloy in seawater [J] . Hiromi Mochizuki, Motohiro Yokota, Shuji Hattori Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear . 2007,第5a6期

机译：材料和固溶温度对海水中纯钛和钛合金空化侵蚀的影响
2. PHVSICOCHEMICAL MATERIAL RESEARCH/TITANIUM-BORIDE EUTECTIC MATERIALS: STRUCTURE OF TITANIUM-RICH Ti-Ge-B ALLOYS AND PHASE EQUILIBRIA AT CRYSTALLIZATION TEMPERATURES [J] . D. B. Borisov, L. V. Artyukh, A. A. Bondar Powder Metallurgy and Metal Ceramics . 2007,第3a4期

机译：石油化学材料研究/硼化共晶材料：结晶温度下富钛Ti-Ge-B合金的结构和相平衡
3. Commercially pure titanium (cp-Ti) versus titanium alloy (Ti6Al4V) materials as bone anchored implants - Is one truly better than the other? [J] . Furqan A. Shah, Margarita Trobos, Peter Thomsen, Materials science & engineering . 2016,第May期

机译：商业纯钛（cp-Ti）与钛合金（Ti6Al4V）材料作为骨锚植入物-一种真的比另一种更好吗？
4. Erosion- and cavitation-corrosion of titanium and its alloys [C] . A. Neville, B.A.B. McDougall Wear of Materials . 2001

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5. Effects of temperature, impurities, and alloying elements on the crevice corrosion of alpha titanium alloys. [D] . He, Xihua. 2004

机译：温度，杂质和合金元素对α钛合金缝隙腐蚀的影响。
6. Bactericidal and antimicrobial effects of pure titanium and titanium alloy treated with short-term low-energy UV irradiation [O] . T. Itabashi, K. Narita, A. Ono, 2017

机译：短期低能量紫外线照射对纯钛和钛合金的杀菌和抗菌作用
7. Manufacture of Pure Titanium(IV) Oxide by the Chloride Process. III. Precipitation of Hydrous Titanium(IV) Oxide in Hydrochloric Acid Solution at Elevated Temperatures [O] . Eiichi Narita, Hitoshi Takeuchi, Naoto Horiguchi, 1984

机译：通过氯化物制造纯钛（IV）氧化物。 III。升高温度下盐酸溶液中含水钛（IV）氧化物的沉淀

Effects of materials and solution temperatures on cavitation erosion of pure titanium and titanium alloy in seawater

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