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Online since: September 2014
Authors: Shi Yun Dong, Bin Liu, Zhu Jing Shao
Research on depth evaluation of surface crack in laser cladding coating with metal magnetic memory technology
Bin Liu1, a, Zhujing Shao1,a, Shiyun Dong2, b
1School of Material Science and Engineering, Jiangsu University of Science and Technology, Zhenjiang, 212003, China
2 Science and Technology on Remanufacturing Laboratory, Academy of Armored Forces Engineering, Beijing, 100072, China
aemail: liubindely@163.com
Keywords: Metal Magnetic Memory; Surface Crack; Depth Evaluation; Laser Cladding Coating
Abstract: Depth of evaluation method of surface crack in laser cladding coating with metal magnetic memory was introduced in this paper.
Cinde Journal, 2006, 27(3):16-20
Journal of East China University of Science and Technology (Natural Science Edit ion), 2006, 32(8):1007-1011
China Safety Science Journal, 2012, 22(7):102-108
Influence of manufacturing process on metal magnetic memory signals in ferromagnetic materials[J].
Cinde Journal, 2006, 27(3):16-20
Journal of East China University of Science and Technology (Natural Science Edit ion), 2006, 32(8):1007-1011
China Safety Science Journal, 2012, 22(7):102-108
Influence of manufacturing process on metal magnetic memory signals in ferromagnetic materials[J].
Online since: July 2012
Authors: Paul Weaver, Qi Bin Liu, De Yi Zheng, Jonathan Swingler
Nowadays, the piezoelectric materials are widely used in many areas.
The piezoelectric materials will undergo an electrical degradation process during working causes the piezoelectricity and resistance of the piezoelectric materials degrade.
The reduction model is based on the high mobility of oxygen vacancies in undoped and acceptor-doped dielectric materials [4].
H rdtl, Degradation of dielectric ceramics, Materials Science and Engineering: A, Vol. 109 (1989), p. 171-182 [6] T.
Swingler, The Effects of Porosity, Electrode and Barrier Materials on the Conductivity of Piezoelectric Ceramics in High Humidity and DC Electrical Field, Smart Materials & Structures, in press
The piezoelectric materials will undergo an electrical degradation process during working causes the piezoelectricity and resistance of the piezoelectric materials degrade.
The reduction model is based on the high mobility of oxygen vacancies in undoped and acceptor-doped dielectric materials [4].
H rdtl, Degradation of dielectric ceramics, Materials Science and Engineering: A, Vol. 109 (1989), p. 171-182 [6] T.
Swingler, The Effects of Porosity, Electrode and Barrier Materials on the Conductivity of Piezoelectric Ceramics in High Humidity and DC Electrical Field, Smart Materials & Structures, in press
Online since: October 2014
Authors: Yu Liu, Man Liang Li, Zhao Hui Wang
The conclusion was that up to a maximum of 30% textile ETP sludges could be used in manufacturing of non-structural building materials.
Acknowledgement This material is based in part upon work supported by the National Natural Science Foundation of China under Project No. 51208048 and the China Postdoctoral Science Foundation under Project No. 2012M521730 and 2013T60870.
References [1] Balasubramanian, J., et al., Reuse of textile effluent treatment plant sludge in building materials.
Journal of Hazardous Materials, 2009. 162(1): p. 321-327
Journal of Materials in Civil Engineering, 2012. 24(6): p. 666-673
Acknowledgement This material is based in part upon work supported by the National Natural Science Foundation of China under Project No. 51208048 and the China Postdoctoral Science Foundation under Project No. 2012M521730 and 2013T60870.
References [1] Balasubramanian, J., et al., Reuse of textile effluent treatment plant sludge in building materials.
Journal of Hazardous Materials, 2009. 162(1): p. 321-327
Journal of Materials in Civil Engineering, 2012. 24(6): p. 666-673
Online since: July 2023
Authors: Leo Cristobal C. Ambolode II, Norodin A. Rangaig, Rayno Vic B. Janayon, Alvanh Alem G. Pido, Art Anthony Z. Munio
Fig. 2 depicts the band structures of the materials.
Fig. 6 shows the imaginary part of the dielectric constant of the materials.
Jacob, Review on the antimicrobial properties of carbon nanostructures, Materials, 10(9) (2017) 1066
Wentzcovitch, QUANTUM ESPRESSO: a modular and open-source software project for quantum simulations of materials, Journal of physics: Condensed matter, 21(39) (2009) 395502
Shahtahmasebi, Optical absorption and electron energy loss spectra of single-walled carbon nanotubes, Computational Materials Science, 49(3) (2010) 450-456
Fig. 6 shows the imaginary part of the dielectric constant of the materials.
Jacob, Review on the antimicrobial properties of carbon nanostructures, Materials, 10(9) (2017) 1066
Wentzcovitch, QUANTUM ESPRESSO: a modular and open-source software project for quantum simulations of materials, Journal of physics: Condensed matter, 21(39) (2009) 395502
Shahtahmasebi, Optical absorption and electron energy loss spectra of single-walled carbon nanotubes, Computational Materials Science, 49(3) (2010) 450-456
Online since: July 2011
Authors: Li Zhou, Shu Tao Huang, J. Li
All materials were treated as isotropic perfectly elastic material following the generalized Hook’s law.
Akcin: International Journal of Rock Mechanics & Mining Sciences Vol. 43 (2006), pp: 139-156
Evans: International Journal of Rock Mechanics and Mining Sciences Vol. 9 (1972), pp: 355-361
Nishimatsu: International Journal of Rock Mechanics and Mining Sciences Vol. 9 (1972), pp: 261-271
Fowell: Mining Science and Technology Vol. 13 (1991), pp: 257-270.
Akcin: International Journal of Rock Mechanics & Mining Sciences Vol. 43 (2006), pp: 139-156
Evans: International Journal of Rock Mechanics and Mining Sciences Vol. 9 (1972), pp: 355-361
Nishimatsu: International Journal of Rock Mechanics and Mining Sciences Vol. 9 (1972), pp: 261-271
Fowell: Mining Science and Technology Vol. 13 (1991), pp: 257-270.
Online since: August 2013
Authors: Xiang Zhu, Peng Wang, Tian Yun Li, Guo Xiong Pan
The properties of both materials are shown in table 1.
By comparing the hardness of two materials shown in table 1, it’s easy to know that the HT200 is relatively softer.
Journal of Tribology (ASME), 113(1991) 1-11 [5] YOU J M, CHEN T N.
Chinese Journal of Applied Mechanics, 17(2000) 31-35 [8] Ge S R, Tonder R.
Engineering Science, 6(2004) 49-51 [10] National Machinery Administration.
By comparing the hardness of two materials shown in table 1, it’s easy to know that the HT200 is relatively softer.
Journal of Tribology (ASME), 113(1991) 1-11 [5] YOU J M, CHEN T N.
Chinese Journal of Applied Mechanics, 17(2000) 31-35 [8] Ge S R, Tonder R.
Engineering Science, 6(2004) 49-51 [10] National Machinery Administration.
Online since: June 2021
Authors: Zhi Shou Zhu, Jing Li, Xin Nan Wang
Journal of Aeronautical Materials. 2014; 34(4): 44-50
Journal of Aeronautical Materials. 2016; 36(5):7-13
Materials Science Forum. 2016; 849:332-339
Materials Science Forum. 2016; 849:309-316
Journal of Aeronautical Materials.2004;24(4):11-13
Journal of Aeronautical Materials. 2016; 36(5):7-13
Materials Science Forum. 2016; 849:332-339
Materials Science Forum. 2016; 849:309-316
Journal of Aeronautical Materials.2004;24(4):11-13
Online since: April 2012
Authors: Rui Fang, Cheng Zhe Jin
It could precisely machine hard materials as an alternative to turning for certain limitations.
Katayama et al. [7] studied the formation of built-up edge (BUE) and its effects on machined surface roughness by means of cutting various steel materials and observed that the surface roughness of dual-phase and multi-phase materials are worse than single-phase materials.
Figure 5 illustrates the tool wear of micro-turn-milling of micro-screw experiments.The cause is that while continuous chip flows through the rake face when micro-turn-milling of micro-screw, owing to duralumin alloy belongs to stronger plastic workpiece materials, therefore after the workpiece of duralumin alloy contact constantly with the rake face, the bottom materials of chip interact with each other the rake face of cutting tool materials, which generate cold welding and bond together.
When the outflow of the chip, it will force the inner materials of softer chip of micro-screw underlying to a large shear deformation.
International Journal of Science, Vol. 43, No. 9, pp. 2047–2068, 2001
Katayama et al. [7] studied the formation of built-up edge (BUE) and its effects on machined surface roughness by means of cutting various steel materials and observed that the surface roughness of dual-phase and multi-phase materials are worse than single-phase materials.
Figure 5 illustrates the tool wear of micro-turn-milling of micro-screw experiments.The cause is that while continuous chip flows through the rake face when micro-turn-milling of micro-screw, owing to duralumin alloy belongs to stronger plastic workpiece materials, therefore after the workpiece of duralumin alloy contact constantly with the rake face, the bottom materials of chip interact with each other the rake face of cutting tool materials, which generate cold welding and bond together.
When the outflow of the chip, it will force the inner materials of softer chip of micro-screw underlying to a large shear deformation.
International Journal of Science, Vol. 43, No. 9, pp. 2047–2068, 2001