Search results

Therefore, the difference of mechanical properties of materials exacerbates material damage when the crack cross different elastic material interface and the damage characteristics can change the damage state uniform material.
Conclusions The composites of three point bending beam test and theoretical research show that, the crack will deflect because of the difference of mechanical properties of materials when the crack perpendicular to different elastic materials interface expands.
The degree of sand-mudstone materials damage is consistent with plastic strain and the plastic strain is lager, the degree of damage will be stronger.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (No. 51004023).
International Journal of Mechanical Science, 2007, 49:888-897

Introduction Deep-ultraviolet (DUV) laser is often applied to micro-fabrication of nonmetal materials because the materials strongly absorb the laser beam.
Silica glass and diamond-like materials are representatives of the materials hard to machine.
However, development of 157nm laser technology opens new opportunities for micromachining those materials.
Conclusions Deep-UV laser with 157nm wavelength is conducted into micromachining of wide band-gap materials.
References [1] S.Harry,M.James,J.Peter et al:Journal of Photopolymer Science and Technology,Vol.15(2002), pp.569-576

Materials and Experimental Procedures Materials.
Budinsk: Engineering Materials Selection, Fourth Edition, Prentice-Hall, Inc., New JERSY(1992)
Callister: Materials Science and Engineering and Engineering: an Introduction, Third Edition, John Wiley and Sons inc., New York(1994)
Kayali: The effect of manganese on the microstructure and mechanical properties of zinc–aluminum based ZA-8 alloy, Journal Material of Science, Vol.42 (2007), p.8298-8305
Zhao and J.J Li: Effect of equal channel angular pressing on tensile properties and fracture modes of casting Al–Cu alloys, Materials Science and Engineering, Vol. 426(2006), p.305-313

Seible: Construction and Building Materials 17(2003), p.389-403 [3] J.G.
Chang: Journal of Composite Materials 20 (1986), p.216-235 [10] G.A.
Mouritz: Journal of Materials Science Letter 22 (2003), p.1507-1509 [12] S.
Wang: Journal of Composite Materials 43(2009), p.315-330 [13] S.
Duncan: Journal of Material Science 6 (1971), p. 289-293 [20] Y.

Corrosion and Protection of Magnesium Alloys LV Yang-yang1, a and ZHANG Ling-feng1, 2,3,b 1School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang 471003, China 2Henan Key Laboratory of Non-ferrous Metals Materials Science and Processing Technology, Luoyang, 471003, China 3Henan collaborative innovation centre of Non-Ferrous generic technology, Luoyang ,Henan471003,China acl_lvyang@163.com, bzh_lingfeng@163.com Keywords: Magnesium alloy.
Materials Review, 2008, 18 (4): 72 -77
Ordnance Material Science and Engineering, 1997, 20 (4): 35-38
[4] Song G, Bowles L, Stjohn DH Corrosion resistance off aged die cast magnesium alloy AZ91D [J], materials science & Engineering A, 2004, 366 (1): 74-86
[8] Wan D Q, Wang J C, Wang G F, et al. effect of Mn on damping capacities mechanical properties and corrosion behavior of high damping Mg3-wt%Ni based alloy [J]. materials science & Engineering A, 2008, 494(1-2):139-142

Supported by the China National Natural Science Foundation (No.50875207 and No.11072191) FEM Simulation Material Model.
Transactions of the ASME- Journal of Pressure Vessel and Technology, 2009, 131(1), 61-70 [6] D.
Standard test method for plane strain fracture toughness of metallic materials, Annual book of ASTM Standards, Vol. 03.01, ASTM International, 2002 [8] ABAQUS/Standard User’s Manual.
Nuclear Science and Technology, 2005, 42(2), 225-232 [11] Q.J.Peng, J.Kwon, T.Shoji.
Journal of Nuclear Materials, 2004, 324(1), 52-61

Critical Reviews in Solid State and Materials Sciences, 47(1), 46-98
Journal of Materials Research and Technology [18] M.
Critical Reviews in Solid State and Materials Sciences, 1-111
Journal of Materials Engineering and Performance, 30, 409-422
Materials Science and Technology. 2023 Apr 13;39(6):671-82.

Cardew-Hall: Aerospace Science and Technology Vol. 10 (2006), p. 327 [2] J.
Li: Materials Science and Engineering: A Vol. 499 (2009), p. 242 [3] H.
Sun: Journal of Harbin Engineering University Vol. 32 (2011), p. 378 (In Chinese) [4] P.
Journal of Vibration, Acoustics, Stress, and Reliability in design Vol. 110 (1988), p. 65 [5] V.
Ghassaei: Journal of Materials Science Vol. 24 (1989), p. 599

However, both materials have drawbacks in mechanical properties such as brittleness and low compressive strength.
Cannillo, Bioactive glass/hydroxyapatite composites: Mechanical properties and biological evaluation, Materials Science and Engineering C. 51 (2015) 196–205
Aswath, XANES analysis of calcium and sodium phosphates and silicates and hydroxyapatite–Bioglass®45S5 co-sintered bioceramics, Materials Science and Engineering C. 31 (2011) 134–143
Hashemi, Evaluating morphology and mechanical properties of glass-reinforced natural hydroxyapatite composites, journal of the mechanical behavior of biomedical materials. 41 (2015) 36–42
Aswath, Bioactivity and mineralization of hydroxyapatite with bioglass as sintering aid and bioceramics with Na3Ca6(PO4)5 and Ca5(PO4)2SiO4 in a silicate matrix, Materials Science and Engineering C. 30 (2010) 263–272

Skidanov.: Journal of Magnetism and Magnetic Materials 320 (2008) 296–299 [6].
Yoshihito, Y, et al.: Journal of Magnetism and Magnetic Materials 304 (2006) 675–677 [8].
Ryusuke Hasegawa.: Materials Science and Engineering A 375–377(2004) 90–97 [9].
Chao.: Materials Science and Engineering A287(2000) 238–247 [10].
Pop.: Journal of Magnetism and Magnetic Materials 154 (1996) 101-106