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Online since: February 2011
Authors: Chang He Li, Zhen Lu Han, Guo Yu Liu, Lin Gang Li
The characteristic physical properties of titanium alloy materials of the electrical discharge machining (EDM) small hole is studied theoretically and experimentally.
Thereby, the main characteristic of EDM is described as follow: it can machining whatever conductive materials and not be restricted by its hardness; it can machining blind-hole; deep-hole; slant-hole and profiled hole on the slant; it has low cutting force in machining process and requires low strength and stiffness.
Jahanmir: Journal of Tribology ASME Vol.123 (2001), p. 101–107 [2] E.
Key Engineering Materials, Vols. 375-376 (2008), p. 449-453
International Journal of Machine Tools & Manufacture, Vol.44 (2004), p.629-636
Thereby, the main characteristic of EDM is described as follow: it can machining whatever conductive materials and not be restricted by its hardness; it can machining blind-hole; deep-hole; slant-hole and profiled hole on the slant; it has low cutting force in machining process and requires low strength and stiffness.
Jahanmir: Journal of Tribology ASME Vol.123 (2001), p. 101–107 [2] E.
Key Engineering Materials, Vols. 375-376 (2008), p. 449-453
International Journal of Machine Tools & Manufacture, Vol.44 (2004), p.629-636
Online since: December 2024
Authors: Shun Yong Zhang, Yan Dan Chen, Ya Hui Shi, Ji Cheng Li, Xi Cheng Huang
Geometric modeling of the representative zone, (a1-a3) is materials with VV = 30%, and (b1-b3) is materials with VV = 60%.
Material parameters for different materials.
Effective stress cloud within various materials at a press-in of 600 nm.
References [1] Pan X, Jia C, Ji Z, and Qiu C 2023 Microstructural evolution and dynamic recrystallization mechanism of a heavily-alloyed Ni-based superalloy during hot extrusion Journal of Materials Research and Technology 23 4922-37 [2] Li D, Liu J, Sun Y, Huang W-Q, Li N, and Yang L 2023 Microstructure and mechanical degradation of K403 Ni-based superalloy from ultra-long-term serviced turbine blade Journal of Alloys and Compounds 957 170378 [3] Xu J, Zhao X, Li W, Liu H, Yue Q, Duan H, Gu Y and Zhang Z 2023 Aging process design based on the morphological evolution of γ′ precipitates in a 4th generation nickel-based single crystal superalloy Journal of Materials Science & Technology 147 176-88 [4] Li B, Zhang S, Essa F A, Dong C, Yu J and Zhang Q 2018 Crack Propagation and Microstructural Evolution of Ni-based Single Crystal Alloy Under Shear Loads Rare Metal Materials and Engineering 47 1370-6 [5] Jiang Y, Yue H, Li Q, Ding G, and Wang X 2023 Study on the Machinability of Ni-Based
Superalloy by Milling Parameters and Cooling Methods under Minimal Quantity Lubrication Applied Sciences 13 2773 [6] Zhang S Y, Zhao J F, Liang Y X, Li J C, and Huang X C 2024 Degradation and anisotropy characteristics of fracture toughness in Ni-based superalloys after phase coarsening Materials Science and Engineering: A 889 145852
Material parameters for different materials.
Effective stress cloud within various materials at a press-in of 600 nm.
References [1] Pan X, Jia C, Ji Z, and Qiu C 2023 Microstructural evolution and dynamic recrystallization mechanism of a heavily-alloyed Ni-based superalloy during hot extrusion Journal of Materials Research and Technology 23 4922-37 [2] Li D, Liu J, Sun Y, Huang W-Q, Li N, and Yang L 2023 Microstructure and mechanical degradation of K403 Ni-based superalloy from ultra-long-term serviced turbine blade Journal of Alloys and Compounds 957 170378 [3] Xu J, Zhao X, Li W, Liu H, Yue Q, Duan H, Gu Y and Zhang Z 2023 Aging process design based on the morphological evolution of γ′ precipitates in a 4th generation nickel-based single crystal superalloy Journal of Materials Science & Technology 147 176-88 [4] Li B, Zhang S, Essa F A, Dong C, Yu J and Zhang Q 2018 Crack Propagation and Microstructural Evolution of Ni-based Single Crystal Alloy Under Shear Loads Rare Metal Materials and Engineering 47 1370-6 [5] Jiang Y, Yue H, Li Q, Ding G, and Wang X 2023 Study on the Machinability of Ni-Based
Superalloy by Milling Parameters and Cooling Methods under Minimal Quantity Lubrication Applied Sciences 13 2773 [6] Zhang S Y, Zhao J F, Liang Y X, Li J C, and Huang X C 2024 Degradation and anisotropy characteristics of fracture toughness in Ni-based superalloys after phase coarsening Materials Science and Engineering: A 889 145852
Online since: January 2012
Authors: Yong Qiang He, Hua Bin Chen, Xiao Dong Wang, Jian Ping Gao, Hong Sun
Introduction
Soft materials, such as hydrogels, are important materials in the human body.
Soft materials can act as mechanical actuators that convert external stimuli to mechanical energy.
Acknowledgments This work was supported by the National Science Foundation of China (No. 21074089) and Tianjin Municipal Science and Technology Commission, P R China (No. 09JCZDJC23300) References [1] S.V.Ahir and E.M.Terentjev: Nature Materials Vol. 4(2005), p. 491-495
Yao: Journal of Materials Chemistry Vol. 20(2010), p. 9032-9036
[12] C.Park, J.H.Kang, J.S.Harrison et al: Advanced Materials Vol. 20(2008), p. 2074-2079
Soft materials can act as mechanical actuators that convert external stimuli to mechanical energy.
Acknowledgments This work was supported by the National Science Foundation of China (No. 21074089) and Tianjin Municipal Science and Technology Commission, P R China (No. 09JCZDJC23300) References [1] S.V.Ahir and E.M.Terentjev: Nature Materials Vol. 4(2005), p. 491-495
Yao: Journal of Materials Chemistry Vol. 20(2010), p. 9032-9036
[12] C.Park, J.H.Kang, J.S.Harrison et al: Advanced Materials Vol. 20(2008), p. 2074-2079
Online since: June 2011
Authors: Harshad K.D.H. Bhadeshia
University of Cambridge, Materials Science and Metallurgy, U.
Reed: Materials Science and Technology Vol. 7 (1991) p. 686
Bhadeshia: International Journal of Materials Research Vol. 100 (2009) 40
Bhadeshia: Materials Science and Technology Vol. 17 (2001) p. 355
Bhadeshia: Materials Science and Technology Vol. 17 (2001) p. 366
Reed: Materials Science and Technology Vol. 7 (1991) p. 686
Bhadeshia: International Journal of Materials Research Vol. 100 (2009) 40
Bhadeshia: Materials Science and Technology Vol. 17 (2001) p. 355
Bhadeshia: Materials Science and Technology Vol. 17 (2001) p. 366
Online since: February 2026
Authors: Olurotimi Akintunde Dahunsi, Adebisi Olayinka Akinola, Olabisi David Solomon, Temidayo James Akinboye, Gideon Kehinde Oluwaniyi
Materials and Methods
2.1 Translational Motion (Longitudinal Dynamics).
International Journal of Science and Research (IJSR). 8. 7. (2019). 10.21275/ART20203025
Materials Science and Engineering: An Introduction (10th ed.).
Engineering Science and Technology, an International Journal, 24(5), (2021)1290–1300
Journal of Thermal and Fluid Science. 3. 10.26706/jtfs.3.2.20221203
International Journal of Science and Research (IJSR). 8. 7. (2019). 10.21275/ART20203025
Materials Science and Engineering: An Introduction (10th ed.).
Engineering Science and Technology, an International Journal, 24(5), (2021)1290–1300
Journal of Thermal and Fluid Science. 3. 10.26706/jtfs.3.2.20221203
Online since: February 2012
Authors: Zheng Li, Jian Fei Zhang, Jian Jun Yan, Chang Sheng Qiao
Several kinds of materials (glass, iron, steel, propene polymer and polyvinyl chloride plates) were chosen for preparing films.
Materials and methods Materials.
Several kinds of materials were chosed to prepare the film of pullulan (4 %, w/w).
Steel plate is more suitable for casting film compared to other materials.
Qing: Journal of Cellulose Science and Technology Vol. 16(3) (2008), p. 48-53
Materials and methods Materials.
Several kinds of materials were chosed to prepare the film of pullulan (4 %, w/w).
Steel plate is more suitable for casting film compared to other materials.
Qing: Journal of Cellulose Science and Technology Vol. 16(3) (2008), p. 48-53
Online since: February 2011
Authors: Shi Ming Hao, Hui Fang Wang, Ren Hong Yu, Yu Bao Bi
Effect of Nanosized Al2O3 as Additive on the Sintering Characteristics and Vickers Hardness of Al2O3/Si3N4 Compound Ceramics
Huifang Wang1, a, Shiming Hao2, b Yubao Bi1,c,Renhong Yu1
1 High Temperature Materials Institute, Henan University of science and technology, Luoyang Henan P.
Experimental procedure Starting materials.
Zhou: Materials Science and Engineering A, Vol431 (2006), P.285 [2] C.
Silva : International Journal of Refractory Metals & Hard Materials ,Vol23 (2005),P. 183–192 [3] Thanakorn Wasanapiarnpong, Shigetaka Wada, Masamitsu Imai, Toyohiko Yano: Journal of the European Ceramic Society,Vol 26 (2006), P. 3467 [4].EN ISO 6507-1:2005 [5] M.T.
Shi: Materials Science and Engineering A,Vol351 (2003), P.9 [6] Tadeusz von Rymon Lipinski. in: Proc. of Unified International Technical Conf. on Refractories (UNITECR’2009), Salvador, Brazil, (2009)
Experimental procedure Starting materials.
Zhou: Materials Science and Engineering A, Vol431 (2006), P.285 [2] C.
Silva : International Journal of Refractory Metals & Hard Materials ,Vol23 (2005),P. 183–192 [3] Thanakorn Wasanapiarnpong, Shigetaka Wada, Masamitsu Imai, Toyohiko Yano: Journal of the European Ceramic Society,Vol 26 (2006), P. 3467 [4].EN ISO 6507-1:2005 [5] M.T.
Shi: Materials Science and Engineering A,Vol351 (2003), P.9 [6] Tadeusz von Rymon Lipinski. in: Proc. of Unified International Technical Conf. on Refractories (UNITECR’2009), Salvador, Brazil, (2009)
Online since: June 2021
Authors: G. Kishore Chowdari, D.V.V. Krishna Prasad
Journal of Thermoplastic Composite Materials 2020: 33, 324-42
Journal of Materials Research and Technology 2019: 8, 3327-37
Journal of minerals and materials characterization and Engineering 2012: 11, 774-79
Journal of Materials and Environmental Science 2011: 2, 351-56
Journal of Materials and Environmental Science 2016: 7, 1674-80
Journal of Materials Research and Technology 2019: 8, 3327-37
Journal of minerals and materials characterization and Engineering 2012: 11, 774-79
Journal of Materials and Environmental Science 2011: 2, 351-56
Journal of Materials and Environmental Science 2016: 7, 1674-80
Online since: March 2013
Authors: Ze Kun Feng, Qi Fan Li, Shuo Qing Yan, Li Dong
The permeability of materials composed of tiny grains decreases more slowly with the increase of DC-bias superposition due to the absence of the domain walls in the grain.
The NiCuZn ferrites are recognized as the most ideal materials to manufacture multilayer inductors [2].
A Study of planar inductor, International Journal of Applied Electromagnetics and Mechanics.
Journal of Magnetism and Magnetic Materials Vol.168(1997), p.285-291 [3] Su, H.
Journal of Magnetism and Magnetic Materials.
The NiCuZn ferrites are recognized as the most ideal materials to manufacture multilayer inductors [2].
A Study of planar inductor, International Journal of Applied Electromagnetics and Mechanics.
Journal of Magnetism and Magnetic Materials Vol.168(1997), p.285-291 [3] Su, H.
Journal of Magnetism and Magnetic Materials.
Online since: May 2012
Authors: Guo Shou Liu, Zheng Cong Lai, Xi Jie Yang, Shi Yue Wang
The fatigue damage evolving model of brittle materials for one-dimension stress status, as the critical damage DC unequal to 1, was established with damage mechanics theory.
Generally, the fatigue failure of structures show characters of low stress, low strain, without obvious omen, especially for brittle materials like cast iron, concrete etc, the cracks’ propagating life is so much shorter that can even be ignored.
Conclusions The fatigue damage evolving model of materials, of which the critical damage DC unequal to 1,for one-dimension stress status, can be expressed by the function , and the damage D is a random variational value.
[3] Zhong Wang, Zhentong Gao:Mechanics Journal, Vol. 1988,20(6):p.551.
Science Press, 2002: p.23.
Generally, the fatigue failure of structures show characters of low stress, low strain, without obvious omen, especially for brittle materials like cast iron, concrete etc, the cracks’ propagating life is so much shorter that can even be ignored.
Conclusions The fatigue damage evolving model of materials, of which the critical damage DC unequal to 1,for one-dimension stress status, can be expressed by the function , and the damage D is a random variational value.
[3] Zhong Wang, Zhentong Gao:Mechanics Journal, Vol. 1988,20(6):p.551.
Science Press, 2002: p.23.