Phase evolution in Cu_(54)Ni_6Zr_(22)Ti_(18) bulk metallic glass Nd: YAG laser weld

Jonghyun Kim; Dongmyung Lee; Seungyong Shin; Changhee Lee

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Phase evolution in Cu_(54)Ni_6Zr_(22)Ti_(18) bulk metallic glass Nd: YAG laser weld

机译：Cu_（54）Ni_6Zr_（22）Ti_（18）大块金属玻璃Nd：YAG激光焊接中的相变

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A Nd:YAG pulse laser was chosen as the heat source to make a Cu_(54)Ni_6Zr_(22)Ti_(18) bulk metallic glass (BMG) weld with a critical thickness of 6 mm. To make a crystallization-free BMG weld, both empirical and numerical approaches were conducted. For the empirical approach, the pulse shape including peak pulse power and pulse duration was pre-selected and the phase evolution in the BMG bead-on-plate was then investigated according to the pulse frequency and travel speed. Thermal cycles of heating and cooling were estimated by a numerical method. Through the results, crystallizations at each weld metal and heat-affected zone in the BMG bead on plate (BOP) weld were considered.

机译：选择Nd：YAG脉冲激光作为热源，以制作临界厚度为6 mm的Cu_（54）Ni_6Zr_（22）Ti_（18）大块金属玻璃（BMG）焊缝。为了制作无结晶的BMG焊缝，采用了经验方法和数值方法。对于经验方法，预先选择了包括峰值脉冲功率和脉冲持续时间在内的脉冲形状，然后根据脉冲频率和行进速度研究了BMG板上磁珠的相位变化。通过数值方法估计加热和冷却的热循环。通过结果，考虑了BMG焊缝上BMG焊缝中每个焊缝金属和热影响区的结晶。

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来源
《Materials Science and Engineering. A, Structural Materials: Properties, Microstructure and Processing》 |2006年第2期|p.194-201|共8页
作者
Jonghyun Kim; Dongmyung Lee; Seungyong Shin; Changhee Lee;
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作者单位

Division of Materials Science & Engineering, Hanyang University, 17 Haengdang-dong, Seongdong-ku, Seoul 133-791, Republic of Korea;

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正文语种 eng
中图分类工程材料学;
关键词
CuNiZrTi bulk metallic glass; Nd:YAG pulse laser; Weldability; Crystallization;

机译：CuNiZrTi块状金属玻璃;Nd：YAG脉冲激光;可焊性;结晶;

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专利

1. Characterization of the Gas Tungsten Arc Welded Cu_(54)Ni_6Zr_(22)Ti_(18) Bulk Metallic Glass Weld [J] . Jonghyun Kim, Seungyong Shin, Changhee Lee Materials transactions . 2005,第6期

机译：钨极氩弧焊Cu_（54）Ni_6Zr_（22）Ti_（18）大块金属玻璃焊缝的表征
2. Correlation between crystallization and strain hardening during homogeneous deformation of Cu_(54)Ni_6Zr_(22)Ti_(18) bulk metallic glass [J] . W.J. Kim Intermetallics . 2007,第3期

机译：Cu_（54）Ni_6Zr_（22）Ti_（18）大块金属玻璃均匀变形过程中的结晶与应变硬化的关系
3. Weldability of Cu_(54)Zr_(22)Ti_(18)Ni_6 bulk metallic glass by ultrasonic welding processing [J] . Jonghyun Kim Materials Letters . 2014,第sepa1期

机译：超声焊接加工Cu_（54）Zr_（22）Ti_（18）Ni_6大块金属玻璃的焊接性
4. Fabrication of Rod type Cu_(54)Ni_6Zr_(22)Ti_(18) Bulk Amorphous Alloy by Warm Extrusion Process [C] . Sung-Chul Lim, Kyung-Hoon Kim, Hung-Bok Lee, Powder Metallurgy World Congress Exhibition . 2007

机译：通过温暖挤出过程制备棒型Cu_（54）Ni_6Zr_（22）Ti_（18）块状非晶合金
5. Microstructure Evolution of Bulk Metallic Glasses via Laser Processing. [D] . Sun, Hongqing. 2010

机译：大块金属玻璃通过激光加工的微观结构演变。
6. Structure and Properties of Zr-Based Bulk Metallic Glasses in As-Cast State and After Laser Welding [O] . Wirginia Pilarczyk 2018

机译：铸态和激光焊接后Zr基大块金属玻璃的结构和性能
7. Characterization of the Gas Tungsten Arc Welded Cu54Ni6Zr22Ti18 Bulk Metallic Glass Weld [O] . Jonghyun Kim, Seungyong Shin, Changhee Lee 2005

机译：气体钨极弧焊Cu54Ni6Zr22Ti18块体金属玻璃焊接头的表征

Phase evolution in Cu_(54)Ni_6Zr_(22)Ti_(18) bulk metallic glass Nd: YAG laser weld

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