Microstructural and Mechanical Development of As-Cast and Heat-Treated 935AgCu Alloys

Microstructural and mechanical development of the various heat-treated 935 Ag-Cu alloys were explored. The heat-treatment processes were applied viz. holding before quenching for 2 and 15 min, homogenization at 750 °C for 60 min followed by water quenching, and aging at 350 °C for 15 to 60 min followed by water quench. It was found that the specimens with copper addition gave a high resiliency in all heat treatment conditions however the effect of homogenization with aging treatment fostered deep blemish or fire scale on its surface. The amplifications of resiliency of 935 heat-treated AgCuSn and AgCuBe alloy were increased but elongation values were slightly reduced. The 935 AgCuBeSn specimens produced adequate resiliency and elongation after aging at 350 °C for 15 to 60 min followed by water quenching. Partial dissolution and spheroidization of eutectic phase were occurred by homogenization treatment at 750 °C. Aging treatment promoted precipitation of 3-20 nm fcc (Cu,Sn)–rich precipitates and engendered an improvement of hardness, yield strength and the modulus of resilience or resiliency.

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Mechanical Behavior of Friction Stir Welded AA-6061 Thick Plates in Different Heat Treatment Conditions

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.875.203 ◽

2021 ◽

Vol 875 ◽

pp. 203-210

Author(s):

Talha Ahmed ◽

Wali Muhammad ◽

Zaheer Mushtaq ◽

Mustasim Billah Bhatty ◽

Hamid Zaigham

Keyword(s):

Mechanical Properties ◽

Heat Treatment ◽

Aging Treatment ◽

Travel Speed ◽

Butt Joint ◽

Tensile Fracture ◽

Friction Stir ◽

Treatment Conditions ◽

Heat Treated ◽

Joint Form

In this study, mechanical properties of friction stir welded Aluminum Alloy (AA) 6061 in three different heat treatment conditions i.e. Annealed (O), Artificially aged (T6) and Post Weld Heat Treated (PWHT) were compared. Plates were welded in a butt joint form. Parameters were optimized and joints were fabricated using tool rotational speed and travel speed of 500 rpm and 350 mm/min respectively. Two sets of plates were welded in O condition and out of which one was, later, subjected to post weld artificial aging treatment. Third set was welded in T6 condition. The welds were characterized by macro and microstructure analysis, microhardness measurement and mechanical testing. SEM fractography of the tensile fracture surfaces was also performed. Comparatively better mechanical properties were achieved in the plate with PWHT condition.

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Heat-Treated Wood as a Substrate for Coatings, Weathering of Heat-Treated Wood, and Coating Performance on Heat-Treated Wood

Advances in Materials Science and Engineering ◽

10.1155/2019/8621486 ◽

2019 ◽

Vol 2019 ◽

pp. 1-9 ◽

Cited By ~ 3

Author(s):

Vlatka Jirouš-Rajković ◽

Josip Miklečić

Keyword(s):

Heat Treatment ◽

Wood Species ◽

Treated Wood ◽

Wood Properties ◽

Treatment Method ◽

Coating Performance ◽

Treatment Processes ◽

Treatment Conditions ◽

Heat Treated ◽

Trade Names

Heat treatment is a method of wood modification with increasing market acceptance in Europe. The major patented European commercial heat treatment processes have trade names ThermoWood, Platowood, Retiwood, Le Bois Perdure, and Oil-Heat-Treated Wood (OHT). To what extent modification of wood affects the resistance of wood to weathering is also an important aspect for wood applications, especially where appearance is important. Unfortunately, heat-treated wood has poor resistance to weathering, and surface treatment with coatings is required for both protection and aesthetic reasons. As a substrate for coating, heat-treated wood has altered characteristics such as lower hygroscopicity and liquid water uptake and changed acidity, wettability, surface free energy, and anatomical microstructure. Various wood species, heat treatment method, treatment intensity, and treatment conditions exhibited a different extent of changes in wood properties. These altered properties could affect coating performance on heat-treated wood. The reported changes in acidity and in surface energy due to heat treatments are inconsistent with one another depending on wood species and temperature of the treatments. This paper gives an overview of the research results with regards to properties of heat-treated wood that can affect coating performance and weathering of uncoated and coated heat-treated wood.

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The Effect of Heat Treatment on the Mechanical Properties of SAE 1035 Steel

International Journal of Engineering and Technologies ◽

10.18052/www.scipress.com/ijet.8.32 ◽

2016 ◽

Vol 8 ◽

pp. 32-43

Author(s):

Osita Obiukwu ◽

Henry Udeani ◽

Progress Ubani

Keyword(s):

Mechanical Properties ◽

Heat Treatment ◽

Fatigue Strength ◽

Carbon Steel ◽

Endurance Limit ◽

Tensile Tests ◽

Treatment Processes ◽

Treatment Conditions ◽

Hardness Tests ◽

Heat Treated

The effect of various heat treatment operations (annealing, normalizing, tempering) on mechanical properties of 0.35% carbon steel was investigated. The change in the value of endurance limit of the material as a result of the various heat-treatment operations were studied thoroughly. It was found that the specimens tempered at low temperature (200°C) exhibited the best fatigue strength. Microscope was used to characterize the structural properties resulting from different heat treatment processes. The results from the tensile tests impact tests and hardness tests showed that the mechanical properties variate at every heat-treatment conditions. The microstructure of differently heat-treated steels was also studied.

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Heat Treatment Influence on the Corrosion Resistance of a Cu-Al-Fe-Mn Bronze

Revista de Chimie ◽

10.37358/rc.18.5.6260 ◽

2018 ◽

Vol 69 (5) ◽

pp. 1055-1059 ◽

Cited By ~ 1

Author(s):

Mariana Ciurdas ◽

Ioana Arina Gherghescu ◽

Sorin Ciuca ◽

Alina Daniela Necsulescu ◽

Cosmin Cotrut ◽

...

Keyword(s):

Heat Treatment ◽

Corrosion Resistance ◽

Structural Changes ◽

Heating Temperature ◽

Galvanic Corrosion ◽

Cooling Water ◽

Open Circuit ◽

Water Quenching ◽

Heat Treated ◽

Different Temperatures

Aluminium bronzes are exhibiting good corrosion resistance in saline environments combined with high mechanical properties. Their corrosion resistance is obviously confered by the alloy chemical composition, but it can also be improved by heat treatment structural changes. In the present paper, five Cu-Al-Fe-Mn bronze samples were subjected to annealing heat treatments with furnace cooling, water quenching and water quenching followed by tempering at three different temperatures: 200, 400 and 550�C. The heating temperature on annealing and quenching was 900�C. The structure of the heat treated samples was studied by optical and scanning electron microscopy. Subsequently, the five samples were submitted to corrosion tests. The best resistance to galvanic corrosion was showed by the quenched sample, but it can be said that all samples are characterized by close values of open-circuit potentials and corrosion potentials. Concerning the susceptibility to other types of corrosion (selective leaching, pitting, crevice corrosion), the best corrosion resistant structure consists of a solid solution, g2 and k compounds, corresponding to the quenched and 550�C tempered sample.

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Effect of copper incorporation on phase transformation behavior of electroless nickel–phosphorous coating and its effect on the tribological behavior

Proceedings of the Institution of Mechanical Engineers Part L Journal of Materials Design and Applications ◽

10.1177/1464420720981602 ◽

2020 ◽

pp. 146442072098160

Author(s):

Abhijit Biswas ◽

Suman Kalyan Das ◽

Prasanta Sahoo

Keyword(s):

Heat Treatment ◽

Phase Transformation ◽

Tribological Behavior ◽

Electroless Nickel ◽

Two Phase ◽

Microstructural Changes ◽

Treatment Conditions ◽

Heat Treated ◽

Higher Temperature ◽

Effect Of Copper

The microstructural changes of electroless Ni–P–Cu coating at various heat-treatment conditions are investigated to understand its implications on the tribological behavior of the coating. Coatings are heat-treated at temperatures ranging between 200°C and 800 °C and for 1–4 h duration. Ni–P–Cu coatings exhibit two-phase transformations in the temperature range of 350–450 °C and the resulting microstructural changes are found to significantly affect their thermal stability and tribological attributes. Hardness of the coating doubles when heat-treated at 452 °C, due to the formation of harder Ni3P phase and crystalline NiCu. Better friction and wear performance are also noted upon heat treatment of the coating at the phase transformation regime, particularly at 400 °C. Wear mechanism is characterized by a mixed adhesive cum abrasive wear phenomena. Heat treatment at higher temperature (600 °C and above) and longer duration (4 h) results in grain coarsening phenomenon, which negatively influences the hardness and tribological characteristics of the coating. Besides, diffusion of iron from the ferrous substrate as well as greater oxide formation are noticed when the coating is heat-treated at higher temperatures and for longer durations (4 h).

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Researches on Microstructures and Mechanical Properties of Extruded Mg-Zn-Zr-Y Alloy

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.353-358.715 ◽

2007 ◽

Vol 353-358 ◽

pp. 715-717

Author(s):

Jian Peng ◽

Rong Shen Liu ◽

Ding Fei Zhang ◽

Cheng Meng Song

Keyword(s):

Mechanical Properties ◽

Heat Treatment ◽

Grain Size ◽

Aging Treatment ◽

High Strength ◽

Treatment Processes ◽

Medium Strength ◽

Microstructures And Mechanical Properties ◽

Extruded Products

The microstructures and mechanical properties of Mg-Zn-Zr-Y alloy extruded bar with different heat treatment processes were investigated, including solution treatments of 400 oC, 450 oC and 500 oC for 3 hours followed by 170 oC×24h aging treatment, and solely aging treatments of 160 oC, 180 oC for 24hours without solution after extruding. By comparing the grain size, strength and elongation of the samples, the heat treatment processes for extruded products with high strength and with medium strength were recommended.

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The Simultaneous Effect of Extrusion Ratio and Solution Heat Treatment on the Microstructure and Tensile Properties of Extruded Al-15%Mg2Si- 1.0%Gd Composite

Materials Science Forum ◽

10.4028/www.scientific.net/msf.1010.166 ◽

2020 ◽

Vol 1010 ◽

pp. 166-171

Author(s):

Hamidreza Ghandvar ◽

Wan Famin Faiz ◽

Tuty Asma Abu Bakar ◽

Mohd Hasbullah Idris

Keyword(s):

Heat Treatment ◽

Ductile Fracture ◽

Tensile Properties ◽

Solution Heat Treatment ◽

Extrusion Ratio ◽

Treatment Processes ◽

Heat Treated ◽

Size And Morphology ◽

Surface Examination ◽

Strength And Ductility

The effect of extrusion ratios and solution heat treatment on microstructure and tensile properties of extruded Al-15%Mg2Si-1.0%Gd composite was investigated. The as-cast composite was hot extruded using three different dies and solution heat treated. After conducting heat treatment on extruded samples, microstructure alteration was examined using scanning electron microscope (SEM). Furthermore, mechanical properties of the composites were studied with tensile test. The results demonstrated that extruded and heat treated composite possesses higher strength and ductility compared to as-extruded composites. It was also found that the extrusion and heat treatment processes altered the morphology of primary Mg2Si particles as well as reduction in their size especially when the extrusion ratio increases. Fracture surface examination revealed a transition from ductile fracture in as-extruded samples to more ductile fracture in extruded and heat treated ones. This can be attributed to the change in size and morphology of primary Mg2Si particles as well as fragmentation of Gd intermetallic compounds.

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The Effect of Heat Treatment on Fatigue and Mechanical Properties of 6061 Aluminium Alloy

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.699.227 ◽

2014 ◽

Vol 699 ◽

pp. 227-232

Author(s):

Nurulhilmi Zaiedah Nasir ◽

Mohd Ahadlin Mohd Daud ◽

Mohd Zulkefli Selamat ◽

Ahmad Rivai ◽

Sivakumar Dhar Malingam

Keyword(s):

Mechanical Properties ◽

Heat Treatment ◽

Impact Strength ◽

Aluminium Alloy ◽

Aging Treatment ◽

Hardness Measurement ◽

Hardness Tester ◽

Quenching Media ◽

Heat Treated ◽

6061 Aluminium Alloy

This paper investigated the effect of heat treatment on mechanical properties and microstructure of 6061 aluminium alloy. The aluminium alloys were examined in the heat treated conditions, using different quenching media, water and oil. The alloy was solution heat treated at temperature of 529oC for one, three and five hour respectively. Aging treatment was carried out at temperature of 160oC which is assumed to be the best temperature for ageing process. Hardness measurement was carried out using a Brinell Hardness Tester Machine. The results shows hardness and impact strength are inversely proportional to each other, as the hardness of 6061 aluminium alloy decreases and impact strength increases.

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Preparation of YBa2Cu3O7−y films on SrTiO3 and MgO by the dipping-pyrolysis process under low-p(O2) heat treatment

Journal of Materials Research ◽

10.1557/jmr.1992.2337 ◽

1992 ◽

Vol 7 (9) ◽

pp. 2337-2342 ◽

Cited By ~ 11

Author(s):

T. Manabe ◽

K. Arai ◽

W. Kondo ◽

S. Mizuta ◽

T. Kumagai

Keyword(s):

Heat Treatment ◽

Stability Region ◽

Pyrolysis Process ◽

Axis Orientation ◽

Ag Addition ◽

Upper Limit ◽

Treatment Conditions ◽

Heat Treated ◽

The Stability ◽

Annealing Method

Superconducting YBa2Cu3O7−y (YBCO) films having a thickness of 1 μm were prepared on SrTiO3(100) and MgO(100) by the dipping-pyrolysis process using a low-p(O2) annealing method. Heat-treatment conditions were varied along the upper limit of the stability region of the YBCO phase. Films on SrTiO3(100) exhibited strong c-axis orientation with sharp rocking curves (FWHM = 0.8°). The highest Tc,zero of 87 K was obtained for the film heat-treated at 750 °C. On the other hand, films on MgO(100) showed broader rocking curves and their Tc's remained lower. Moreover, Ag addition was found to enhance the Tc values (Tc,zero = 91 K) of films on SrTiO3 heat-treated at 750 °C.

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Microstructure and Properties of Heat-Treated 440C Martensitic Stainless Steel

Defect and Diffusion Forum ◽

10.4028/www.scientific.net/ddf.334-335.105 ◽

2013 ◽

Vol 334-335 ◽

pp. 105-110 ◽

Cited By ~ 1

Author(s):

Siti Hawa Mohamed Salleh ◽

Mohd Nazree Derman ◽

Mohd Zaidi Omar ◽

Junaidi Syarif ◽

S. Abdullah

Keyword(s):

Mechanical Properties ◽

Heat Treatment ◽

Stainless Steel ◽

Martensitic Stainless Steel ◽

Ferrite Matrix ◽

Rapid Quenching ◽

Heat Treated Sample ◽

Treatment Processes ◽

Heat Treated ◽

Treated Sample

440C martensitic stainless steels are widely used because of their good mechanical properties. The mechanical properties of 440C martensitic stainless steel were evaluated after heat treatment of these materials at various types of heat treatment processes. The initial part of this investigation focused on the microstructures of these 440C steels. Microstructure evaluations from the as-received to the as-tempered condition were described. In the as-received condition, the formations of ferrite matrix and carbide particles were observed in this steel. In contrast, the precipitation of M7C3carbides and martensitic structures were present in this steel due to the rapid quenching process from the high temperature condition. After precipitation heat treatment, the Cr-rich M23C6carbides were identified within the structures. Moreover, a 30 minutes heat-treated sample shows the highest value of hardness compared to the others holding time. Finally, the tempering process had been carried out to complete the whole heat treatment process in addition to construct the secondary hardening phenomenon. It is believed that this phenomenon influenced the value of hardness of the 440C steel.

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