Diffusion bonding of AISI 304L steel to low-carbon steel with AISI 304L steel interlayer

T. Vigraman; D. Ravindran; R. Narayanasamy

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Diffusion bonding of AISI 304L steel to low-carbon steel with AISI 304L steel interlayer

机译：通过AISI 304L钢中间层将AISI 304L钢扩散到低碳钢

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The diffusion bonding (DB) of AISI 304L to low carbon steel with an AISI 304L interlayer was attempted at temperatures of 850,900, and 950℃, with a 90-min holding time at a pressure of 10 Mpa. The tensile test revealed that the transition joints achieved a maximum tensile strength of 340.5 Mpa. The microhardness test carried out on the diffusion-bonded samples revealed the formation of more hard and brittle phases at higher temperatures. Optical micrographs and scanning electron microscopy (SEM) images showed the grain growth, the width of the diffused region and the fine details of the interface structure. The tensile strength of the diffusion bonded joints was not affected due to the formation of intermetallic compounds at the interface because the fracture took place in the base metal low carbon steel.

机译：尝试在850,900和950℃的温度下，将AISI 304L与具有AISI 304L中间层的低碳钢进行扩散粘结（DB），并在10 Mpa的压力下保持90分钟。拉伸试验表明，过渡接头的最大拉伸强度为340.5 Mpa。对扩散结合的样品进行的显微硬度测试表明，在较高的温度下会形成更多的硬质和脆性相。光学显微照片和扫描电子显微镜（SEM）图像显示出晶粒长大，扩散区域的宽度和界面结构的精细细节。由于在母材低碳钢中发生断裂，因此在界面处形成金属间化合物，不会影响扩散结合接头的拉伸强度。

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来源
《Materials & design》 |2012年第2期|p.594-602|共9页
作者
T. Vigraman; D. Ravindran; R. Narayanasamy;
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Department of Mechanical Engineering, National Engineering College, K.R. Nagar, Kovilpatti 628 503, Tamil Nadu, India;

Department of Mechanical Engineering, National Engineering College, K.R. Nagar, Kovilpatti 628 503, Tamil Nadu, India;

Department of Production Engineering, National Institute of Technology, Thiruchirappalli 620 015, Tamil Nadu, India;

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Diffusion bonding of AISI 304L steel to low-carbon steel with AISI 304L steel interlayer

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