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- Strain hardening of AuAg25Pt6 by cold working.jpg 326 × 257; 25 KB
- Strain hardening of AuAg26Ni3 by cold working.jpg 317 × 215; 23 KB
- Strain hardening of AuAg30 by cold working.jpg 319 × 254; 25 KB
- Strain hardening of AuCo5 by cold working.jpg 316 × 248; 26 KB
- Strain hardening of AuCu14Pt9Ag4 by cold working.jpg 347 × 307; 30 KB
- Strain hardening of AuNi5 by cold working.jpg 318 × 253; 25 KB
- Strain hardening of AuPt10 by cold working.jpg 321 × 209; 22 KB
- Strain hardening of Au by cold working.jpg 305 × 209; 22 KB
- Strain hardening of CuAg2 by cold working.jpg 471 × 336; 57 KB
- Strain hardening of CuNi25 by cold working.jpg 370 × 314; 49 KB
- Strain hardening of CuNi9Sn2 by cold working.jpg 477 × 411; 67 KB
- Strain hardening of CuNi 12Zn24 by cold working.jpg 395 × 463; 65 KB
- Strain hardening of CuSn8 by cold working.jpg 387 × 451; 68 KB
- Strain hardening of CuZn36 by cold forming.jpg 409 × 385; 61 KB
- Strain hardening of Cu ETP by cold working.jpg 377 × 304; 47 KB
- Strain hardening of NiCu30Fe by cold working.jpg 450 × 341; 57 KB
- Strain hardening of Pd-99 99by cold working.jpg 358 × 234; 38 KB
- Strain hardening of PdCu15 by cold working.jpg 390 × 282; 41 KB
- Strain hardening of PdCu40 by cold working.jpg 350 × 283; 41 KB
- Strain hardening of PtIr5 by cold working.jpg 365 × 279; 40 KB
- Strain hardening of PtNi8 by cold working.jpg 351 × 336; 46 KB
- Strain hardening of PtW5 by cold working.jpg 384 × 337; 46 KB
- Strain hardening of Pt by cold working.jpg 547 × 428; 74 KB
- Strain hardening of copper nickel alloys as function.jpg 418 × 276; 45 KB
- Strain hardening of internally oxidized AgCdO9010.jpg 325 × 466; 69 KB
- Strain hardening of internally oxidized Ag SnO2 88 12P.jpg 469 × 424; 58 KB
- Strain hardening of internally oxidized Ag SnO2 88 12 TOS F.jpg 380 × 394; 46 KB
- Strain hardening of oxidized AgSnO2 88 12 PW4.jpg 305 × 508; 65 KB
- Strain hardening of technical pure nickel by cold working.jpg 512 × 294; 55 KB
- Strain hardering.png 317 × 261; 28 KB
- Symbole used.jpg 643 × 528; 109 KB
- Thermal-Properties-of-the-Most-Important-Metals.jpg 1,157 × 591; 232 KB
- Typical application ranges for contact materials.jpg 432 × 438; 58 KB
- Typical configurations of clad contact strips.jpg 541 × 249; 40 KB
- Typical configurations of multi-layer contact profiles.jpg 546 × 151; 13 KB
- Typical configurations of seam-welded contact strips.jpg 546 × 336; 63 KB
- Typical configurations of toplay contact profiles2.jpg 545 × 247; 44 KB
- Typical contact forms of weld buttons.jpg 544 × 72; 8 KB
- Typical contact shapes for composite rivets.jpg 541 × 149; 15 KB
- Typical contact shapes of tips and formed contact parts.jpg 545 × 329; 26 KB
- Typical contact shapes of tri-metal rivets.jpg 544 × 130; 17 KB
- Typical examples of electroplated semi finished materials.jpg 466 × 370; 100 KB
- Typical examples of hot tinned strip materials.jpg 468 × 214; 33 KB
- Typical process flow for the SILVERBRITE W ATPS process.jpg 468 × 287; 66 KB
- U shaped element.jpg 220 × 70; 14 KB
- Ultrasonic picture of a weld.jpg 304 × 170; 17 KB
- Ultrasound print-out of braze joints.jpg 381 × 130; 20 KB
- Vertical Wire Welding Dimensions.jpg 537 × 180; 15 KB
- Vertical wire welding (schematic).jpg 544 × 249; 24 KB