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Online since: October 2010
Authors: Khaled A. Abou-El-Hossein, Alexander Gorin, Moola Mohan Reddy
Advanced Ceramic materials are difficult to do machining by conventional methods due to the brittle nature and high hardness.
References [1] Seiichi Taruta , Ryuji Fujisawa, Kunio Kitajima, Preparation and mechanical properties of machinable alumina/mica composites, Journal of the European Ceramic Society 26 (2006) 1687–1693 [2] Luis.C.J, Puertas.I, Villa.G, Material removal rate and electrode wear study on the EDM of silicon carbide, Journal of Materials Processing Technology 164-165(2005) 889-896 [3] Malkin S.Ritter JE, Grinding mechanisms and strength degration for ceramics ASME, Journal of engineering for Industry 1989; 111:2111-18
[10] Chwan-Huei Tsai, Hong-Wen Chen, Laser cutting of thick ceramic substrates by controlled fracture technique, Journal of Materials Processing Technology 136 (2003), 166–173 [11] Rajurkar.K.P, Wang.Z.Y, Kuppattan.A, Micro removal of ceramic material (AL2O3) in the precision ultrasonic machining, Precision Engineering 23, 1999, 73-78
A, Prakash J.R.S, Micro milling of pure Copper, Journal of materials Processing Technology 116(2001) 39-43
[13] Takacs.M, Vero.B, Meszaros.I, Micro milling of metallic materials, Journal of Materials processing Technology 138(2003) 152-155
References [1] Seiichi Taruta , Ryuji Fujisawa, Kunio Kitajima, Preparation and mechanical properties of machinable alumina/mica composites, Journal of the European Ceramic Society 26 (2006) 1687–1693 [2] Luis.C.J, Puertas.I, Villa.G, Material removal rate and electrode wear study on the EDM of silicon carbide, Journal of Materials Processing Technology 164-165(2005) 889-896 [3] Malkin S.Ritter JE, Grinding mechanisms and strength degration for ceramics ASME, Journal of engineering for Industry 1989; 111:2111-18
[10] Chwan-Huei Tsai, Hong-Wen Chen, Laser cutting of thick ceramic substrates by controlled fracture technique, Journal of Materials Processing Technology 136 (2003), 166–173 [11] Rajurkar.K.P, Wang.Z.Y, Kuppattan.A, Micro removal of ceramic material (AL2O3) in the precision ultrasonic machining, Precision Engineering 23, 1999, 73-78
A, Prakash J.R.S, Micro milling of pure Copper, Journal of materials Processing Technology 116(2001) 39-43
[13] Takacs.M, Vero.B, Meszaros.I, Micro milling of metallic materials, Journal of Materials processing Technology 138(2003) 152-155
Online since: September 2014
Authors: Mohd Aliff Irham Md. Azhar, Taslima Khanam, Sekhar Bhattacharjee, Sujan Chowdhury, Pradip Chandra Mandal, Muhd Fahmi Daman
Therefore, morphology-controlled synthesis of well-developed shapes and sizes inorganic materials is an important goal of modern materials chemistry.
Goharshadi, Materials Research Bulletin, 47 (2012) 1089 – 1095
Kumar, Journal of Hazardous Materials, 137 (2006) 1538 – 1544
Lu, Materials Chemistry and Physics, 120 (2010) 23 – 30
Nancarrow, Journal of Colloid and Interface Science, 356 (2011) 473 – 480
Goharshadi, Materials Research Bulletin, 47 (2012) 1089 – 1095
Kumar, Journal of Hazardous Materials, 137 (2006) 1538 – 1544
Lu, Materials Chemistry and Physics, 120 (2010) 23 – 30
Nancarrow, Journal of Colloid and Interface Science, 356 (2011) 473 – 480
Online since: August 2011
Authors: Juan Wang, Si Yu Lai
Carbon Black Conductive Composite Based Resistance-Temperature
Measurement System Using AT89S51
Juan Wang1, a, Siyu Lai2,b
1 Department of Computer Science, China West Normal University, NanChong, China
2 Department of Medical Image, North Sichuan Medical College, NanChong, China
awjuan0712@126.com, blsy_791211@126.com
Keywords: AD595; AT89S51; conducting material; resistance-temperature measuring; thermocouple amplifier
Abstract: AT89S51 microcontroller based carbon black conductive composite materials resistance-temperature measurement system is designed, which achieves the measurements of resistance and temperature with the help of thermocouple amplifier chip AD595.
Carbon black conductive composite materials are most widely used and typical one.
We design a simple resistance and temperature of carbon black conductive composite materials measurable system based on AT89S51 microcontroller [8], the system structure is shown in Figure 1.
Plastics Science and Technology, 2001, 37(3): 4–7
Journal of Tongji University, 2002, 6(7): 137–140
Carbon black conductive composite materials are most widely used and typical one.
We design a simple resistance and temperature of carbon black conductive composite materials measurable system based on AT89S51 microcontroller [8], the system structure is shown in Figure 1.
Plastics Science and Technology, 2001, 37(3): 4–7
Journal of Tongji University, 2002, 6(7): 137–140
Online since: January 2013
Authors: Pin Le Zhang
Restoring Force Models Investigation of Research Status and
Problems Analysis of RC Structure
Pinle Zhang
Department of Civil Engineering, Kunming University of Science and Technology, Kunming, China
*Correspondence to: Zhang Pin-le, Kunming University of Science and Technology, 650500, P.R.
Restoring force model investigation based on materials 2.1 Stress-strain hysteretic relations of steel Park and Kent (1972) [2] propose a restoring force model of steel in which unloading section is elastic and basuschinger effect is considered under the reverse loading, and that it is once one of the most widely used model.
Suggestions It is important to investigate restoring force model of RC members with high strength and axial compression ratio, for the strength of materials and axial compression of high-rise building is increasingly increased.
Journal of Structural Engineering, 1995,121(3):433-445
Journal of Structural Engineering, 1998,124(3):228-296
Restoring force model investigation based on materials 2.1 Stress-strain hysteretic relations of steel Park and Kent (1972) [2] propose a restoring force model of steel in which unloading section is elastic and basuschinger effect is considered under the reverse loading, and that it is once one of the most widely used model.
Suggestions It is important to investigate restoring force model of RC members with high strength and axial compression ratio, for the strength of materials and axial compression of high-rise building is increasingly increased.
Journal of Structural Engineering, 1995,121(3):433-445
Journal of Structural Engineering, 1998,124(3):228-296
Online since: September 2014
Authors: Nick Warrior, Kim Yeow Tshai, Britto Satheesh
Materials
Epoxy resin.
Toughening of Epoxy Resins, Journal of Applied Polymer Science, 84(6), 1223–1232 (2002)
[8] Vineeta N., Setua D.K., Mathur G.N., Failure analysis of rubber toughened epoxy Resin, Journal of Applied Polymer Science, 87(5), 861–868 (2003)
Nayef S.Al.M, Thermal Properties of Epoxy (DGEBA)/Phenolic Resin (NOVOLAC) Blends, The Arabian Journal for Science and Engineering, Vol. 35 (2010)
[16] Soo-Jin Park, Fan-Long Jin, Jae-Rock Lee, Thermal and mechanical Properties of Tetrafunctional Epoxy Resin Toughened with Epoxidised Soybean Oil, Materials Science and Engineering A, Vol. 374, 109-114 (2004)
Toughening of Epoxy Resins, Journal of Applied Polymer Science, 84(6), 1223–1232 (2002)
[8] Vineeta N., Setua D.K., Mathur G.N., Failure analysis of rubber toughened epoxy Resin, Journal of Applied Polymer Science, 87(5), 861–868 (2003)
Nayef S.Al.M, Thermal Properties of Epoxy (DGEBA)/Phenolic Resin (NOVOLAC) Blends, The Arabian Journal for Science and Engineering, Vol. 35 (2010)
[16] Soo-Jin Park, Fan-Long Jin, Jae-Rock Lee, Thermal and mechanical Properties of Tetrafunctional Epoxy Resin Toughened with Epoxidised Soybean Oil, Materials Science and Engineering A, Vol. 374, 109-114 (2004)
Online since: March 2024
Authors: Didier Talamona, Asma Perveen, Salikh Omarov, Nurlan Nauryz
Micro EDM is unconventional metal removing technique that is effective in machining hard-to-cut conductive materials.
There are many surface treatment techniques that are able to modify surfaces of metallic materials.
In fact its unique approach to machine conductive materials through melting with electrical sparks is useful for machining hard-to-cut materials such as titanium and its alloys [2].
Sidambe, "Biocompatibility of advanced manufactured titanium implants-A review," Materials, Review vol. 7, no. 12, pp. 8168-8188, 2014
Davis et al., "Enhanced Micro-Electric Discharge Machining-Induced Surface Modification on Biomedical Ti-6Al-4V Alloy," Journal of Manufacturing science and engineering, vol. 144, no. 7, 2022.
There are many surface treatment techniques that are able to modify surfaces of metallic materials.
In fact its unique approach to machine conductive materials through melting with electrical sparks is useful for machining hard-to-cut materials such as titanium and its alloys [2].
Sidambe, "Biocompatibility of advanced manufactured titanium implants-A review," Materials, Review vol. 7, no. 12, pp. 8168-8188, 2014
Davis et al., "Enhanced Micro-Electric Discharge Machining-Induced Surface Modification on Biomedical Ti-6Al-4V Alloy," Journal of Manufacturing science and engineering, vol. 144, no. 7, 2022.
Online since: March 2015
Authors: Yan Zhang
Journal of Xi’an University of Science & Technology, 2004, 24(3):9-11
Journal of Liaoning Technical University (Social Science Edition), 1995, 14(2):40-43
Anhui University of science and technology, 2008
Journal of China Coal Society, 1993, 18(4):1-12
Science Press, 2002:29-30.
Journal of Liaoning Technical University (Social Science Edition), 1995, 14(2):40-43
Anhui University of science and technology, 2008
Journal of China Coal Society, 1993, 18(4):1-12
Science Press, 2002:29-30.
Online since: June 2014
Authors: Feng Hua Zhou, Yu Xuan Zheng, Shi Sheng Hu
It was found that the Mott-Grady theory provides reasonably good predictions of the fragment sizes for ductile materials.
Introduction Materials usually break into many fragments under very high strain-rate loadings.
With this method, Hoggatt and Recht[2] obtained the dynamic uniaxial tensile stress-strain data for several ductile materials.
The Mott-Grady theory can provide reasonably close predictions of the fragment size for the ductile materials being tested.
A unit for testing materials at high strain rates Experimental Mechanics, 1965, 5(1):29-32 [4] Grady D E, Benson D A.
Introduction Materials usually break into many fragments under very high strain-rate loadings.
With this method, Hoggatt and Recht[2] obtained the dynamic uniaxial tensile stress-strain data for several ductile materials.
The Mott-Grady theory can provide reasonably close predictions of the fragment size for the ductile materials being tested.
A unit for testing materials at high strain rates Experimental Mechanics, 1965, 5(1):29-32 [4] Grady D E, Benson D A.
Online since: April 2014
Authors: Wen Jian Ren, Xin Feng Liu, Jin Qiang Gao
Weld pool and keyhole detection based on visual sensors
in plasma arc welding
Ren Wenjian 1, a, Liu Xinfeng 1,b and Gao Jinqiang1,c
1 MOE Key Lab for Liquid-Solid Structure Evolution and Materials Processing, and Institute of Materials Joining, Shandong University, Jinan 250061, China
arwjsuccess@126.com, bliuxinfengabc@163.com, cjqg@sdu.edu.cn
Keywords: Plasma Arc Welding, Visual Sensor, Keyhole, Weld Pool
Abstract.
KOVACEVIC. in: Journal of Materials Processing Technology, 2006, 174: 127-136
Liu. in: Measurement Science and Technology, 2001, 12: 1365-1370
Ma. in: Measurement Science and Technology, 2001, 12: 1964-1975
in: Welding Journal. 2013, 92(12): 381s-389s
KOVACEVIC. in: Journal of Materials Processing Technology, 2006, 174: 127-136
Liu. in: Measurement Science and Technology, 2001, 12: 1365-1370
Ma. in: Measurement Science and Technology, 2001, 12: 1964-1975
in: Welding Journal. 2013, 92(12): 381s-389s