Experimental/ aluminium alloysdynamic testingelectron beam effectsimpactmaterials testingmechanical strength/ dynamic yield strength6061-T6 Al alloyelectron beam heatingone dimensional stress wave loadingelevated temperaturesAn experimental method is described that has been used to determine the yield strength of...
*High latent heat of melting;*Good corrosion resistant performance; *High-reflectance; *Well welding property; *Good rust resistance; *Good plasticity; *Low strength but suitable for cold working hardening; *All the advantages of normal aluminium alloy; ...
K um ar R ,G arg S B L.E ffectofyield strength and single tensile overload cycles on effective stress intensity range ratio in 6061-T6 A l-alloy[J].E ngineering Fracture M echanics,1989,34(2):403-412.Kumar R, Garg S B L. Effect of yield strength and single tensile overload ...
Most of these proposed methods have yet to be rigorously verified experimentally. The objective of this work is to contribute to experimental verification by testing four contemporary models against their ability to accurately determine the yield strength of the aluminium alloy 6061-T6 using the ...
Crack closure experiments were performed on 6063-T6 and 6061-T6 aluminium alloys, using a crack opening displacement gauge, for various overload ratios (1路67, 1路88 and 2路06). On the basis of these experiments some relationships are developed. The delay period after application of a single...
An integrated precipitation and strengthening model, incorporating the effect of precipitate morphology on precipitation kinetics and yield strength, is developed based on a modified Kampmann–Wagner numerical (KWN) framework with a precipitate shape factor. The optimized model was used to predict the yie...
Precipitates are the primary source of strength for the Al-Mg-Si alloy. Aluminum alloy in the peak-aged state mainly contains β” and β’ precipitates. Most of the literature has only considered the strengthening effect of β”. Here, we develop a single-crystal intensity model including bot...
Precipitates are the primary source of strength for the Al-Mg-Si alloy. Aluminum alloy in the peak-aged state mainly contains β” and β’ precipitates. Most of the literature has only considered the strengthening effect of β”. Here, we develop a sing
materials Article The Lightweight Design of a Seismic Low-Yield-Strength Steel Shear Panel Damper Chaofeng Zhang, Jiajia Zhu, Meiping Wu *, Jinhu Yu and Junhua Zhao Jiangsu Key Laboratory of Advanced Food Manufacturing Equipment & Technology, Mechanical Engineering School of Jiangnan University, Wuxi...