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→5.1.2 Pure Copper
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'''Table 5.1: Material Designations of Some Copper Types'''
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:Cu-DHP: Phosphorous Deoxidized High Conductivity Copper
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'''Table 5.2: Composition of Some Pure Copper Types'''
neu machen!
'''Table 5.3: Physical Properties of Some Copper Types'''
<table border="1" cellspacing="0" style="border-collapse:collapse"><tr><td><p class="s3">Material</p><p class="s3">EN- Desig- nation</p></td><td><p class="s3">Density</p><p class="s3">[g/cm³]</p></td><td><p class="s3">Electrical</p><p class="s3">Conductivityt</p></td><td><p class="s3">Electrical Conduc- tivity</p><p class="s3">[µ<span class="s10">S · </span>cm]</p></td><td><p class="s3">Thermal</p><p class="s3">Conduc- tivity</p><p class="s3">[W/(m.K)]</p></td><td><p class="s3">Coeff. of</p><p class="s3">Linear Thermal Expan- sion</p><p class="s3">[10<span class="s11">-6</span>/K]</p></td><td><p class="s3">Modulus</p><p class="s3">of</p><p class="s3">Elasticity</p><p class="s3">[GPa]</p></td><td><p class="s3">Softening</p><p class="s3">Tempera- tur (approx.</p><p class="s3">10% loss in</p><p class="s3">strength) [°C]</p></td><td><p class="s3">Melting</p><p class="s3">Tempera- ture</p><p class="s3">[°C]</p></td></tr><tr><td><p class="s3">Material</p><p class="s3">EN- Desig- nation</p></td><td><p class="s3">Density</p><p class="s3">[g/cm³]</p></td><td><p class="s3">[MS/m]</p></td><td><p class="s3">[% IACS]</p></td><td><p class="s3">Electrical Conduc- tivity</p><p class="s3">[µ<span class="s10">S · </span>cm]</p></td><td><p class="s3">Thermal</p><p class="s3">Conduc- tivity</p><p class="s3">[W/(m.K)]</p></td><td><p class="s3">Coeff. of</p><p class="s3">Linear Thermal Expan- sion</p><p class="s3">[10<span class="s11">-6</span>/K]</p></td><td><p class="s3">Modulus</p><p class="s3">of</p><p class="s3">Elasticity</p><p class="s3">[GPa]</p></td><td><p class="s3">Softening</p><p class="s3">Tempera- tur (approx.</p><p class="s3">10% loss in</p><p class="s3">strength) [°C]</p></td><td><p class="s3">Melting</p><p class="s3">Tempera- ture</p><p class="s3">[°C]</p></td></tr><tr><td><p class="s3">Cu-ETP</p></td><td><p class="s3">8.94</p></td><td><p class="s12">>5<span class="s3">8</span></p></td><td><p class="s3">100</p></td><td><p class="s3">1.72</p></td><td><p class="s3">390</p></td><td><p class="s3">17.7</p></td><td><p class="s3">127</p></td><td><p class="s3">ca. 220</p></td><td><p class="s3">1083</p></td></tr><tr><td><p class="s3">Cu-OF</p></td><td><p class="s3">8.94</p></td><td><p class="s12">>5<span class="s3">8</span></p></td><td><p class="s3">100</p></td><td><p class="s3">1.72</p></td><td><p class="s3">394</p></td><td><p class="s3">17.7</p></td><td><p class="s3">127</p></td><td><p class="s3">ca. 220</p></td><td><p class="s3">1083</p></td></tr><tr><td><p class="s3">Cu-HCP</p></td><td><p class="s3">8.94</p></td><td><p class="s12">>5<span class="s3">4</span></p></td><td><p class="s3">93</p></td><td><p class="s3">1.85</p></td><td><p class="s3">380</p></td><td><p class="s3">17.7</p></td><td><p class="s3">127</p></td><td><p class="s3">ca. 220</p></td><td><p class="s3">1083</p></td></tr><tr><td><p class="s3">Cu-DLP</p></td><td><p class="s3">8.94</p></td><td><p class="s3">52</p></td><td><p class="s3">90</p></td><td><p class="s3">1.92</p></td><td><p class="s3">350</p></td><td><p class="s3">17.7</p></td><td><p class="s3">132</p></td><td><p class="s3">ca. 220</p></td><td><p class="s3">1083</p></td></tr><tr><td><p class="s3">Cu-DHP</p></td><td><p class="s3">8.94</p></td><td><p class="s12">>4<span class="s3">6</span></p></td><td><p class="s3">80</p></td><td><p class="s3">2.17</p></td><td><p class="s3">310</p></td><td><p class="s3">17.6</p></td><td><p class="s3">132</p></td><td><p class="s3">ca. 220</p></td><td><p class="s3">1083</p></td></tr></table>
'''Table 5.4: Mechanical Properties of Some Copper Types'''
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</table>
Fig. 5.1:Strain hardeningof Cu-ETP by cold working
Fig. 5.2:Softening of Cu-ETPafter annealing for 3hrsafter 25% cold working
Fig. 5.3:Softening of Cu-ETPafter annealing for 3hrsafter 50% cold working
===5.1.3 High Cu Content Copper Alloys===
