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The spall strength and shock compressive damage of AD95 ceramics

Sun Zhan-Feng He Hong-Liang Li Ping Li Qing-Zhong

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The spall strength and shock compressive damage of AD95 ceramics

Sun Zhan-Feng, He Hong-Liang, Li Ping, Li Qing-Zhong
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  • The relationship between spall strength and impact stress of AD95 ceramics which is in a one-dimensional strain state is determined by velocity profile measurement of the free surface or the sample/window interface. All fiber displacement interferometer system for any reflector is used in velocity measurement. Further the relationship between shock compressive damage degree and impact stress is discussed. The results indicate that the stress threshold of AD95 ceramics against shock compressive damage is about 3.7 GPa, which is less than its Hugoniot Elastic Limit (HEL, about 5.47 GPa). When impact stress is less than the threshold, no compressive damage occurs, and the spall strength increases with impact stress gradually. When impact stress is greater than the threshold, shock compressive damage occurs and develops rapidly which leads to the decrease of the spall strength with impact stress. The spall strength falls to zero when the impact stress increases up to about the HEL, which indicates that the material has lost the ability to resist the tensile stress and severe shock compressive damage has happened.
    • Funds: Project supported by the Key Program of the National Natural Science Foundation of China (Grant No.10632080).
    [1]

    Grady D E 1998 Mechanics of Materials 29 181

    [2]

    Brace W F, Paulding Jr B W, Scholz C 1966 J. Geophys. Res. 71 3939

    [3]

    Bar-on E, Partom Y, Rubin M B, Yankelevsky D J 2002 Int. J. Impact Engng. 27 509

    [4]

    Bar-on E, Partom Y, Rubin M B, Yankelevsky D J 2002 Shock Compression of Condensed Matter (edited by Furnish M D, Thadhani N N et al AIP, Georgia, 2001) p739

    [5]

    Bar-on E 2007Shock Compression of Condensed Matter(edited by Elert M, Furnish M D et al AIP, Hawaii, 2007) p223

    [6]

    Bourne N K, Millett J, Rosenberg Z 1998 J. Mech. Phys. Solids 46 1887

    [7]

    Liu Z F, Chang J Z, Yao G W 2006 Applied Mathematics and Mechanics 38 626 (in Chinese)[刘占芳, 常敬臻, 姚国文2006力学学报38 626]

    [8]

    Chen D P, He H L, Li M F, Jing F Q 2007 Acta Phys. Sin. 56 423 (in Chinese)[陈登平, 贺红亮, 黎明发, 经福谦2007 56 423]

    [9]

    Grady D E, Moody R L 1996 Sandia Report SAND96-0551, UC- 704

    [10]

    Rosenberg Z 1991 Shock Compression of Condensed Matter (edited by Schmidt S C, Dick R D et al Elsevier Science, NewYork, 1991) 439

    [11]

    Bourne N K, Millett J, Chen M W 2007Shock Compression of Condensed Matter (edited by Elert M, Furnish M D et al AIP, Hawaii, 2007) 739

    [12]

    Chen M W, McCauley J W, Dandekar D P, Bourne N K 2006 Nature Materials 5 614

    [13]

    Qi M L, He H L, Yan S L 2007 Acta Phys. Sin. 56 5965(in Chinese)[祁美兰, 贺红亮, 晏石林2007 56 5965]

    [14]

    Cagnoux J, Longy F 1988 J. Phys. 40 3

    [15]

    Dandekar D P, Bartkowski P 1994 High Pressure Science and Technology (edited by Schmidt S C, Shaner J W et al AIP, NewYork, 1993) 733

    [16]

    Bourne N K 2001 Proc. R. Soc. A 457 2189

    [17]

    Longy F, Cagnoux J 1989 J. Am. Ceram. Soc. 72 971

    [18]

    Staehler J M, Predebon W W, Pletka B J 1994 High Pressure Science and Technology (edited by Schmidt S C, Shaner J W et al AIP, NewYork, 1993) 745

    [19]

    Gust W H, Holt A C, Royce E B 1973 J. Appl. Phys. 44 550

    [20]

    Bless S J, Yaziv D, Rosenberg Z 1986 Shock Waves in Condensed Matter (edited by Gupta Y M Plenum, New York, 1985) 419

    [21]

    Murray N H, Bourne N K, Rosenberg Z, Field J E 1998 J. Appl. Phys. 84 734

    [22]

    Rosenberg Z, Yeshurun Y 1985 J. Appl. Phys. 58 3077

    [23]

    Yaziv D, Bless S J, Rosenberg Z 1986 Shock Waves in Condensed Matter (edited by Gupta Y M Plenum, New York, 1985) 425

    [24]

    Grady D E, Kipp M E 1993 High-pressure Shock Compression of Solids (edited by Asay J R, Shahinpoor M, New York: Springer- Verlag New York Inc.) 265

    [25]

    Marsh S P 1980 LASL Shock Hugoniot Data (Berkeley·Los Angeles·London: University of California Press) p57, 166, 446

    [26]

    Xia M F, Han W S, Ke F J, Bai Y L 1995 Advances in Mechanics 25 1 (in Chinese)[厦蒙棼, 韩闻生, 柯孚久, 白以龙1995力学进展 25 1]

    [27]

    Xia M F, Han W S, Ke F J, Bai Y L 1995 Advances in Mechanics 25 145 (in Chinese)[厦蒙棼, 韩闻生, 柯孚久, 白以龙1995力学进展25 145]

  • [1]

    Grady D E 1998 Mechanics of Materials 29 181

    [2]

    Brace W F, Paulding Jr B W, Scholz C 1966 J. Geophys. Res. 71 3939

    [3]

    Bar-on E, Partom Y, Rubin M B, Yankelevsky D J 2002 Int. J. Impact Engng. 27 509

    [4]

    Bar-on E, Partom Y, Rubin M B, Yankelevsky D J 2002 Shock Compression of Condensed Matter (edited by Furnish M D, Thadhani N N et al AIP, Georgia, 2001) p739

    [5]

    Bar-on E 2007Shock Compression of Condensed Matter(edited by Elert M, Furnish M D et al AIP, Hawaii, 2007) p223

    [6]

    Bourne N K, Millett J, Rosenberg Z 1998 J. Mech. Phys. Solids 46 1887

    [7]

    Liu Z F, Chang J Z, Yao G W 2006 Applied Mathematics and Mechanics 38 626 (in Chinese)[刘占芳, 常敬臻, 姚国文2006力学学报38 626]

    [8]

    Chen D P, He H L, Li M F, Jing F Q 2007 Acta Phys. Sin. 56 423 (in Chinese)[陈登平, 贺红亮, 黎明发, 经福谦2007 56 423]

    [9]

    Grady D E, Moody R L 1996 Sandia Report SAND96-0551, UC- 704

    [10]

    Rosenberg Z 1991 Shock Compression of Condensed Matter (edited by Schmidt S C, Dick R D et al Elsevier Science, NewYork, 1991) 439

    [11]

    Bourne N K, Millett J, Chen M W 2007Shock Compression of Condensed Matter (edited by Elert M, Furnish M D et al AIP, Hawaii, 2007) 739

    [12]

    Chen M W, McCauley J W, Dandekar D P, Bourne N K 2006 Nature Materials 5 614

    [13]

    Qi M L, He H L, Yan S L 2007 Acta Phys. Sin. 56 5965(in Chinese)[祁美兰, 贺红亮, 晏石林2007 56 5965]

    [14]

    Cagnoux J, Longy F 1988 J. Phys. 40 3

    [15]

    Dandekar D P, Bartkowski P 1994 High Pressure Science and Technology (edited by Schmidt S C, Shaner J W et al AIP, NewYork, 1993) 733

    [16]

    Bourne N K 2001 Proc. R. Soc. A 457 2189

    [17]

    Longy F, Cagnoux J 1989 J. Am. Ceram. Soc. 72 971

    [18]

    Staehler J M, Predebon W W, Pletka B J 1994 High Pressure Science and Technology (edited by Schmidt S C, Shaner J W et al AIP, NewYork, 1993) 745

    [19]

    Gust W H, Holt A C, Royce E B 1973 J. Appl. Phys. 44 550

    [20]

    Bless S J, Yaziv D, Rosenberg Z 1986 Shock Waves in Condensed Matter (edited by Gupta Y M Plenum, New York, 1985) 419

    [21]

    Murray N H, Bourne N K, Rosenberg Z, Field J E 1998 J. Appl. Phys. 84 734

    [22]

    Rosenberg Z, Yeshurun Y 1985 J. Appl. Phys. 58 3077

    [23]

    Yaziv D, Bless S J, Rosenberg Z 1986 Shock Waves in Condensed Matter (edited by Gupta Y M Plenum, New York, 1985) 425

    [24]

    Grady D E, Kipp M E 1993 High-pressure Shock Compression of Solids (edited by Asay J R, Shahinpoor M, New York: Springer- Verlag New York Inc.) 265

    [25]

    Marsh S P 1980 LASL Shock Hugoniot Data (Berkeley·Los Angeles·London: University of California Press) p57, 166, 446

    [26]

    Xia M F, Han W S, Ke F J, Bai Y L 1995 Advances in Mechanics 25 1 (in Chinese)[厦蒙棼, 韩闻生, 柯孚久, 白以龙1995力学进展 25 1]

    [27]

    Xia M F, Han W S, Ke F J, Bai Y L 1995 Advances in Mechanics 25 145 (in Chinese)[厦蒙棼, 韩闻生, 柯孚久, 白以龙1995力学进展25 145]

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Publishing process
  • Received Date:  12 January 2011
  • Accepted Date:  10 May 2012
  • Published Online:  05 May 2012

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