Mechanical Performance of Heat Treated Ti-6Al-4V Friction Stir Welds

Edwards, Paul; Petersen, Marc; Ramulu, Mamidala; Boyer, Rodney

doi:10.4028/www.scientific.net/KEM.436.213

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Application of Local Rapid Heat Treatment for Improvement of Microstructure and Mechanical Properties of Titanium Products
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Mechanical Performance of Heat Treated Ti-6Al-4V Friction Stir Welds
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首页 Key Engineering Materials Cost-Affordable Titanium IIIMechanical Performance of Heat Treated Ti-6Al-4V...

Mechanical Performance of Heat Treated Ti-6Al-4V Friction Stir Welds

摘要:

Heat treatment processes for standard fusion welding techniques in titanium are well established, but the optimal heat treatment for Friction Stir Welded titanium has not been evaluated. In this study, 6 mm thickness titanium 6Al-4V butt welds were subjected to heat treatments ranging from 700 to 900 C. Results of the metallographic analysis for each heat treatment condition will be presented in addition to microhardness, tensile and fatigue properties. It was found that increased heat treatment temperatures lead to lower hardness and tensile strengths, higher elongation to failure and improved high cycle fatigue performance. Furthermore, fracture toughness and crack growth tests were performed for welds subjected to a standard post-weld stress relief. The fracture toughness was lower than the parent material, but crack growth rates in the weld were similar to that of the base metal.

信息:

期刊:

Key Engineering Materials ( 436卷)

主题:

Cost-Affordable Titanium III

编辑:

M. Ashraf Imam, F. H. Froes, Kevin F. Dring

页数:

213-221

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.436.213

引用:

P. Edwards et al., "Mechanical Performance of Heat Treated Ti-6Al-4V Friction Stir Welds", Key Engineering Materials, Vol. 436, pp. 213-221, 2010

上线时间:

May 2010

作者:

Paul Edwards, Marc Petersen, Mamidala Ramulu, Rodney Boyer

关键字:

Crack Growth, Fatigue, Fracture Toughness, Friction Stir Welding (FSW), Heat Treatment, Microstructure, Tensile, Titanium

输出:

RIS, BibTeX

价格:

$38.00

允许:

请求权限

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论文参考

[1] P. Edwards, M. Ramulu, 2009, Investigation of microstructure, surface and subsurface characteristics in titanium alloy friction stir welds of varied thicknesses, Science and Technology of Welding and Joining, Vol. 14, No 5, pp.775-782.R. S.

DOI: https://doi.org/10.1179/136217109x425838

[2] T.J. Lienert, 2007, Microstructure and Mechanical Properties of Friction Stir Welded Titanium Alloys, Friction Stir Welding and Processing, ASM International, Materials Park, OH, Ch. 7, pp.123-154.

DOI: https://doi.org/10.1002/9781118062302.ch16

[3] D. Sanders, M. Ramulu, E. Klock-McCook, P. Edwards, A. Reynolds, T. Trapp, Characterization of Superplastically Formed Friction Stir Weld in Titanium 6Al-4V: Preliminary Results, " Journal of Mat, ls. Engr. & Perf., Vol. 17, No. 2, pp.187-192, (2008).

DOI: https://doi.org/10.1007/s11665-007-9186-0

[4] Y. Zhang, Y. S. Sato, H. Kokawa, S. H. C. Park, S. Hirano, 2008, Microstructural characteristics and mechanical properties of Ti-6Al-4V friction stir welds, Materials Science and Engineering A, Vol. 485, pp.448-455.

DOI: https://doi.org/10.1016/j.msea.2007.08.051

[5] P. Edwards, M. Ramulu, 2009, Effect of Process Conditions on Superplastic Forming Behavior in Titanium 6Al-4V Friction Stir Welds, Science and Technology of Welding and Joining, Vol. 14, No 7, pp.669-680.

DOI: https://doi.org/10.1179/136217109x12464549883330

[6] D. Sanders, M. Ramulu, P. Edwards, A. Cantrell, 2008, Effect on the surface texture, superplastic forming and fatigue performance of titanium 6Al-4V Friction Stir Welds, AeroMat Conference, Austin, TX, June (2008).

DOI: https://doi.org/10.1002/mawe.200800305

[7] R. John, K.V. Jata and K. Sadananda, 2003, Residual stress effects on near-threshold fatigue crack growth in friction stir welds in aerospace alloys, International Journal of Fatigue, Vol. 25, pp.939-948.

DOI: https://doi.org/10.1016/j.ijfatigue.2003.08.002

[8] S. Pasta and A.P. Reyonds, 2008, "Residual stress effects on fatigue crack growth in Ti-6Al-4V friction stir weld, Fatigue & Fracture of Engineering Materials & Structures, Vol 31, pp.569-580.

DOI: https://doi.org/10.1111/j.1460-2695.2008.01258.x

文章题目页数

Damage Tolerance Properties of 2198-T8 Integral Fuselage Panel between Double Friction Stir Weld Joints

作者: Yu E Ma, Bao Qi Liu, Zhen Qiang Zhao

摘要: Al-Li alloy 2198-T8 was used in the fuselage application. Integral fuselage panels were joined by double friction stir welds. Fatigue tests were conducted in the R=0.1. Notch was made between two welds. Residual stresses were measured and analyzed in the test samples with double welds. Cracks grew from the centre of two welds and across the two welds were observed, and crack growth rates were measured and compared with parent material. It is shown that crack growth rates are lower between double welds, and it is close to parent material after cross the two welds. The virtual crack closure technique (VCCT) method was used to calculate stress intensity factor from residual stress (K_res) in aim to explain the experimental findings.

651

Hybrid Laser-Arc Welding of HSLA-65 Steel Plate: Microstructural and Mechanical Property Evaluation of Butt Welds

作者: Cameron Munro, Allison E. Nolting, Xin Jin Cao, Priti Wanjara

摘要: High strength low alloy (HSLA) steel, namely HSLA-65, has shown promise as a replacement for more common high strength shipbuilding steels. However, conventional high heat input welding processes can cause significant distortion, often requiring expensive post-weld reworking. Butt welds in HSLA-65 steel were fabricated using a hybrid fibre laser-gas metal arc welding (GMAW) procedure to investigate the efficacy of distortion mitigation via low heat input joining. Heat input from the laser and arc sources were roughly equal at ~5.2 kW each, and plates were welded in either the laser-leading or arc-leading configuration. In either case, butt welds in ~9 mm thick plates could be made in a single pass at a total heat input of ~0.4 kJ/mm. Welding induced distortion was minimal. Analysis of the microstructure and microhardness of the welds is provided, along with some preliminary results of mechanical and impact testing.

2992

Correlation of Hardness with Mechanical Properties of SPCC Steel Spot Weld

作者: Nguyen Quoc Nghiem, Hsiu Ying Hwang, Jia Shiun Chen

摘要: The goal of this paper is to develop a method to determine the mechanical properties of SPCC steel spot weld. The mechanical properties of a resistance spot weld could not easily be obtained due to the size of spot weld, and the non-uniformity around the weld zone. This research used an altered approach to obtain the mechanical properties of spot welds. The study based on the hardness measured on spot welds heat-treated surrogate SPCC specimens with the same hardness for the tensile tests. With the tensile test results and hardness measurement data, the correlation of the hardness and yielding strength and of the hardness and ultimate strength could be obtained. In this study, SPCC sheets with thickness of 0.8 mm were welded, and their hardness around the spot welds was measured. Based on the measured hardness, SPCC specimens were heat-treated to reach the hardness measured at different sub-zones of the spot weld. The mechanical properties and microstructure of sub-zones were studied. The relationship between hardness and other mechanical properties were established. The study provides good understanding of the potential failure in spot-welded structures. The results can also be further utilized for computer simulation of spot welds with failure modes to predict the performance of spot-welded vehicle body structures.

1404

Effect of Pre/Post Heat Treatment on the Friction Stir Welded SSM 356 Aluminum Alloys

作者: Worapong Boonchouytan, Thanate Ratanawilai, Prapas Muangjunburee

摘要: The butt joints of semi solid 356 were produced in as cast conditions by friction stir welding process (FSW). This experiment studied in pre/post heat treatment (T6) using the welding speed 160 mm / min with tilt angle tool at 3 degree and straight cylindrical tool pin. The factors of welding were rotating speed rates at 1320, 1750 rpm and heat treatment conditions. They were divided into (1) As welded (AW) joints, (2) T6 Weld (TW) joints, (3) Weld T6 (WT) joints, (4) T6 Weld T6 (TWT) joints, (5) Solution treated Weld Artificially aged (SWA) joints and (6) Weld Artificially aged (WA) joints. Rotating speed and heat treatment (T6) condition were an important factor to micro, macro structure of metal and mechanical properties of the weld. Increasing rotating speed and different heat treatment condition impacted onto tensile strength due to the defects on joints. Therefore the optimum welding parameter on joint was a rotating speed 1320 rpm, the welding speed 160 mm/min, heat treatment condition of Weld T6 (WT) which obtained the highest tensile strength 228.92 MPa, as well as, highest hardness of 98.1 HV

328

Effect of Post Weld Heat Treatment on Mechanical Properties and Microstructure of Nickel Based Super Alloy Welds

作者: M. Agilan, T. Venkateswaran, D. Sivakumar, Bhanu Pant

摘要: In the present paper, Haynes 214 plate of 7mm thick was welded by Gas tungsten arc welding (GTAW) in two passes. The welded plates were subjected to post-weld heat treatment such as direct aging (DA) and solution treatment + aging (STA). The aging cycle was optimized using hardness by generating isothermal aging curve. The weld tensile properties, hardness test, microscopic analysis and fractographic studies were carried out in as-welded condition and at two different post-weld heat treatment conditions. The results show a significant increase in both yield and tensile strength after post weld heat treatment.

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