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LEADER 00000cam  2200517Ki 4500 
003    OCoLC 
005    20131231214745.0 
006    m     o  d         
007    cr cnu|||unuuu 
008    131206s2014    gw a    o     000 0 eng d 
019    SPRINGERocn864755111 
020    9783642409455|q(electronic bk.) 
020    3642409458|q(electronic bk.) 
020    |z9783642409448 
024 7  10.1007/978-3-642-40945-5 
035    (OCoLC)864755111 
040    GW5XE|beng|erda|epn|cGW5XE|dYDXCP 
049    UMVA 
050  4 TA418.14 
072  7 TG|2bicssc 
072  7 TEC009070|2bisacsh 
072  7 TEC021000|2bisacsh 
082 04 620.1/1233|223 
245 00 Plasticity of pressure-sensitive materials /|cHolm 
       Altenbach, Andreas 菣hsner, editors. 
264  1 Heidelberg :|bSpringer,|c2014. 
300    1 online resource (x, 376 pages) :|billustrations (some 
       color). 
336    text|btxt|2rdacontent 
337    computer|bc|2rdamedia 
338    online resource|bcr|2rdacarrier 
490 1  Engineering Materials,|x1612-1317 
505 0  Part I:Experimental Observations -- Part II: Theoretical 
       Foundation -- Summary of Continuum mechanics -- Yield 
       Criteria -- Theory of Plasticity -- Part III: Applications
       -- Metal Forming -- Powder -- Concrete -- Soil and Rock --
       Porous Metals -- Cellular -- Human -- Adhesives and 
       Polymers -- Part IV: Some Mathematics. 
520    Classical plasticity theory of metals is independent of 
       the hydrostatic pressure. However, if the metal contains 
       voids or pores or if the structure is composed of cells, 
       this classical assumption is no more valid and the 
       influence of the hydrostatic pressure must be incorporated
       in the constitutive description. Looking at the microlevel,
       metal plasticity is connected with the uniform planes of 
       atoms organized with long-range order. Planes may slip 
       past each other along their close-packed directions. The 
       result is a permanent change of shape within the crystal 
       and plastic deformation. The presence of dislocations 
       increases the likelihood of planes slipping. Nowadays, the
       theory of pressure sensitive plasticity is successfully 
       applied to many other important classes of materials 
       (polymers, concrete, bones etc.) even if the phenomena on 
       the micro-level are different to classical plasticity of 
       metals. The theoretical background of this 
       phenomenological approach based on observations on the 
       macro-level is described in detail in this monograph and 
       applied to a wide range of different important materials 
       in the last part of this book. 
588    Description based on online resource; title from PDF title
       page (SpringerLink, viewed October 28, 2013). 
650  0 Plasticity. 
650  0 Continuum mechanics. 
655  4 Electronic books. 
700 1  Altenbach, Holm,|d1956-,|eeditor of compilation. 
700 1  菣hsner, Andreas,|eeditor of compilation. 
830  0 Engineering materials,|x1612-1317 
856 40 |3SpringerLink|uhttp://dx.doi.org.ezp.lib.unimelb.edu.au/
       10.1007/978-3-642-40945-5|zConnect to ebook (University of
       Melbourne only) 
938    YBP Library Services|bYANK|n11310797 
990    Ebook load  - do not edit, delete or attach any records. 
994    92|bUMV 
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