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stacking

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Published: 01 August 2005
Fig. 8.46 Tensile failure loads as functions of layup and stacking sequence of the composite laminate. Source: Ref 8.54 More
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Published: 01 August 2005
Fig. A1.18 Ball models of stacking. (a) An fcc structure with a cross section shown for the (111) close-packed plane. (b) An hcp structure. Source: Ref A1.1 More
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Published: 01 August 2005
Fig. A1.20 Three-dimensional sketch of a stacking fault in an fcc crystal. The fault is a narrow ribbon, several atomic diameters in thickness, bounded by partial dislocations (the lines AB and CD ). Source: Ref A1.18 More
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Published: 01 August 2013
Fig. 9.6 Relationship between stacking fault energy (SFe) and deformation mechanism. Source: Ref 9.4 More
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Published: 01 March 2012
Fig. A.63 Stacking fault and extended dislocation. Source: Ref A.10 and A.3 as published in Ref A.1 More
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Published: 01 August 2013
Fig. 1.8 Stacking of close packed planes in the hexagonal close packed structure More
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Published: 01 June 2008
Fig. 2.35 Stacking fault and extended dislocation. Source: Ref 7 , 8 More
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Published: 01 November 2010
Fig. 16.7 Laminate stacking sequence notation More
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Published: 01 November 2019
Figure 13 A diffraction contrast (planar) TEM image of a stacking fault in active silicon. More
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Published: 01 November 2019
Figure 3 PoP stacking provides high yield, low cost and more flexible assembly process for the integration of memory to logic devices More
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Published: 01 November 2019
Figure 6 SAM inspection showed 4 groups of 2-die stacking devices in this MCP device (left), and thermal emission showed the high Icc leakage is from the upper left stack (right) More
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Published: 01 November 2019
Figure 15 Package top view and SAM C-scan view showing four 2-dice stacking Flash memory in a L3A140 package More
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Published: 01 December 2018
Fig. 7.36 Stacking of front control arms on a heat treat rack More
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Published: 01 December 2018
Fig. 8.10 Stacking wheels in (a) baskets, (b) mounting on racks More
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Published: 01 January 2015
Fig. 12.34 Stacking faults bounded by partial dislocations in austenite of an Fe-0.005 wt% C-25 wt% Mn-3 wt% Al-3 wt% Si TWIP steel deformed to 1.5% strain. Thin foil transmission electron micrograph. Courtesy of James Wittig, Vanderbilt University More
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Published: 01 December 2006
Fig. 4.35 Dislocation split by stacking defects More
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Published: 31 August 2023
Fig. 1 Stacking patterns of two graphene layers: (a) configuration A; (b) configuration B. Green dots represent atoms of the lower graphene layer and red the upper. More
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Published: 31 August 2023
Fig. 12 Method used to calculate the stacking fault energy. Atoms are colored to differentiate upper group atoms which are displaced to create a stacking fault. (a) System with the perfect stacking arrangement ABCABC; (b) system after displacement such that A→B (highlighted in red) More
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Published: 01 March 2006
Fig. A.8 Atomic stacking. (a) Simple cubic crystal. (b) Body-centered cubic. Source: Ref A.20 More
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Published: 30 November 2023
Fig. 10.23 Stacking methods, (a) basket, (b) rack mounting More