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Showing below up to 250 results in range #51 to #300.
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- Dimensional ranges2.jpg 544 × 133; 22 KB
- Dimensions.jpg 494 × 145; 14 KB
- Dimensions and Tolerances.jpg 430 × 178; 28 KB
- Dimensions typical-values.jpg 494 × 80; 12 KB
- Direct press-insertion of wire segments.jpg 543 × 196; 14 KB
- Direction dependence of the spring bending limit.jpg 436 × 255; 47 KB
- Disc.jpg 220 × 86; 11 KB
- Dual supported strip.jpg 234 × 72; 11 KB
- Electrical-Properties-of-the-Most-Important-Metals.jpg 1,163 × 668; 217 KB
- Electrical conductivity of copper nickel alloys.jpg 292 × 283; 26 KB
- Electrical conductivity of precipitation hardened CuCr 0.6.jpg 459 × 213; 56 KB
- Electrical resistivity p of AgCu alloys.jpg 355 × 224; 24 KB
- Electrical resistivity p of PdCu alloys.jpg 265 × 254; 30 KB
- Electroless Deposition of Nickel Gold.jpg 469 × 229; 56 KB
- Electroless deposition on a printed circuit board.jpg 294 × 354; 70 KB
- Electroplated Parts.jpg 464 × 454; 82 KB
- Examples for percussion welded contact parts.jpg 541 × 358; 32 KB
- Examples of AlSi clad strips for bond connections.jpg 465 × 275; 63 KB
- Examples of Wire Welding.jpg 544 × 324; 72 KB
- Examples of assembled contact components.jpg 257 × 181; 24 KB
- Examples of brazed contact assemblies.jpg 300 × 207; 11 KB
- Examples of clad stamped parts.jpg 301 × 178; 13 KB
- Examples of pre-mounted stamped component parts.jpg 270 × 233; 16 KB
- Examples of precious metal scrap.jpg 355 × 222; 37 KB
- Examples of riveted stamped parts.jpg 269 × 280; 18 KB
- Examples of strip over molded contact components.jpg 231 × 192; 24 KB
- Examples of vacuum coated semi finished materials and parts.jpg 466 × 284; 76 KB
- Failure probability of a contact as a function of the current.jpg 296 × 326; 23 KB
- Failure probability of a contact as a function of the voitage.jpg 295 × 323; 28 KB
- Fine grain microstructure of AgNiO.jpg 316 × 286; 73 KB
- Flexible keyboard contact pattern printed with AUROMAL 170.jpg 465 × 332; 69 KB
- General Rules for Dimensioning of Contact Rivets.jpg 321 × 142; 14 KB
- Hardness of precipitation hardened CuCr 0.6.jpg 457 × 298; 68 KB
- Helical spring.jpg 216 × 137; 20 KB
- Histogram of the contact resistance Rk.jpg 374 × 494; 52 KB
- Horizontal Wire Welding Dimensions.jpg 565 × 235; 26 KB
- Horizontal profile cut-off welding (schematic).jpg 543 × 293; 28 KB
- Hot bonding of bimetal rivets.jpg 543 × 282; 25 KB
- Hot cladding of pre-materials (schematisch).jpg 542 × 188; 14 KB
- Influence of 1-10 atomic of different.jpg 242 × 272; 19 KB
- Influence of 1 10 atom of different alloying metals.jpg 293 × 267; 33 KB
- Influence of palladium.jpg 316 × 223; 33 KB
- Influence of platinum degussa.jpg 505 × 493; 89 KB
- Influence of the corrosive gas concentration for four classes.jpg 329 × 382; 60 KB
- Influences on contact areas in relays.jpg 805 × 431; 80 KB
- K7-gef.png 8 × 8; 153 bytes
- K7-leer.png 9 × 10; 155 bytes
- Material transfer under DC load.jpg 648 × 286; 106 KB
- Mechanical-Properties-of-the-Most-Important-Metals.jpg 547 × 501; 92 KB
- Mechanical Properties of Gold and Gold Alloys.jpg 543 × 705; 101 KB
- Mechanical Properties of Tungsten and Molybdenum.jpg 546 × 221; 35 KB
- Mechanical properties of brass depending on the copper content.jpg 513 × 390; 89 KB
- Mechanical properties of tin bronze depending on the tin content.jpg 647 × 700; 126 KB
- Micro structure of.jpg 557 × 561; 128 KB
- Micro structure of2.jpg 547 × 536; 138 KB
- Micro structure of -Ag WC 27 C3.jpg 320 × 298; 66 KB
- Micro structure of 122.jpg 555 × 281; 66 KB
- Micro structure of 123.jpg 548 × 278; 74 KB
- Micro structure of AgCdO8812WP.jpg 655 × 262; 127 KB
- Micro structure of AgCdO9010.jpg 653 × 302; 120 KB
- Micro structure of AgCdO9010P.jpg 657 × 268; 112 KB
- Micro structure of AgCdO9010ZH.jpg 321 × 263; 64 KB
- Micro structure of AgNi9010.jpg 654 × 304; 115 KB
- Micro structure of AgNi 8020.jpg 653 × 300; 126 KB
- Micro structure of Ag C 95 5.jpg 650 × 251; 119 KB
- Micro structure of Ag C 96 4 D.jpg 651 × 308; 117 KB
- Micro structure of Ag C 97 3.jpg 659 × 254; 114 KB
- Micro structure of Ag C DF.jpg 651 × 299; 100 KB
- Micro structure of Ag Mo 35 65.jpg 320 × 295; 58 KB
- Micro structure of Ag SnO2 86 14 WPC.jpg 652 × 255; 116 KB
- Micro structure of Ag SnO2 86 14 WPX.jpg 653 × 260; 120 KB
- Micro structure of Ag SnO2 88 12 PE.jpg 654 × 264; 132 KB
- Micro structure of Ag SnO2 88 12 PW.jpg 654 × 252; 137 KB
- Micro structure of Ag SnO2 88 12 TOS F.jpg 652 × 259; 105 KB
- Micro structure of Ag SnO2 88 12 WPD.jpg 320 × 260; 52 KB
- Micro structure of Ag SnO2 88 12 WPX.jpg 318 × 260; 46 KB
- Micro structure of Ag SnO2 92 8PX.jpg 653 × 267; 124 KB
- Micro structure of Ag SnO2 92 8 PE.jpg 653 × 263; 130 KB
- Micro structure of Ag SnO2 92 8 WTOS F.jpg 656 × 252; 104 KB
- Micro structure of Ag SnO2 98 2 PX.jpg 652 × 261; 98 KB
- Micro structure of Ag WC 50 50.jpg 316 × 301; 59 KB
- Micro structure of Ag W 25 75.jpg 316 × 302; 51 KB
- Micro structure of Ag ZnO 92 8 Pw25.jpg 653 × 248; 127 KB
- Micro structure of Ag ZnO 92 8 WPW25.jpg 652 × 248; 118 KB
- Micro structure of Cu Cr 50 50 low gas.jpg 316 × 284; 66 KB
- Micro structure of Cu Cr 75 25 low gas.jpg 318 × 285; 58 KB
- Micro structure of W Cu 30Sb1.jpg 317 × 284; 58 KB
- Micro structure of W Cu 70 30 F.jpg 315 × 286; 68 KB
- Micro structure of W Cu 70 30 G.jpg 316 × 285; 53 KB
- Micro structure of W Cu 70 30 H.jpg 316 × 283; 57 KB
- Micro structure of W Cu 80 20 H.jpg 316 × 282; 57 KB
- Micro strukture of WC Ag 50 50 low gas.jpg 315 × 285; 55 KB
- Microstructure of a powder metallurgical Ag CdO material.jpg 376 × 227; 62 KB
- One side fixed contact bending spring.jpg 612 × 221; 48 KB
- Overview of the Most Widely Used Silver Grades.jpg 716 × 321; 63 KB
- Percussion welding (schematic).jpg 543 × 254; 26 KB
- Phase diagram of copper beryllium with temperature ranges.jpg 356 × 334; 48 KB
- Phase diagram of copper nickel.jpg 315 × 395; 35 KB
- Phase diagram of copper silver.jpg 326 × 403; 37 KB
- Phase diagram of copper zinc.jpg 414 × 488; 62 KB
- Phase diagram of gold-cobalt.jpg 546 × 674; 72 KB
- Phase diagram of gold-copper.jpg 383 × 449; 56 KB
- Phase diagram of gold-nickel.jpg 547 × 682; 72 KB
- Phase diagram of gold-silver.jpg 318 × 385; 30 KB
- Phase diagram of gold copper.jpg 340 × 401; 29 KB
- Phase diagram of goldplatinum.jpg 392 × 477; 54 KB
- Phase diagram of nickel beryllium.jpg 306 × 345; 45 KB
- Phase diagram of palladium copper.jpg 412 × 410; 56 KB
- Phase diagram of palladium copper2.jpg 408 × 496; 70 KB
- Phase diagram of platinum iridium.jpg 463 × 473; 50 KB
- Phase diagram of platinum nickel.jpg 447 × 418; 66 KB
- Phase diagram of silver cadmium.jpg 459 × 441; 88 KB
- Phase diagram of silver copper.jpg 477 × 438; 64 KB
- Phase diagram of silver nickel.jpg 516 × 446; 57 KB
- Phase diagram of silver palladium.jpg 491 × 387; 56 KB
- Phase diagram of the Cu Sn system.jpg 290 × 513; 48 KB
- Physical Mechanical Properties as Manufacturing.jpg 900 × 800; 251 KB
- Physical Mechanical properties.pdf ; 423 KB
- Physical Properties of-Contact Materials Based.jpg 833 × 517; 116 KB
- Physical Properties of Copper Tungsten CUWODUR Contact Materials.jpg 837 × 497; 130 KB
- Physical Properties of Gold and Gold-Alloys.jpg 829 × 237; 76 KB
- Physical Properties of platinum metals.jpg 845 × 142; 48 KB
- Physical Properties of the Low Gas Materials for Vacuum Switches.jpg 957 × 293; 88 KB
- Physical and Mechanical Properties.jpg 879 × 331; 89 KB
- Porosity of an electroplated hard gold layer.jpg 292 × 338; 37 KB
- Precious metals in various forms.jpg 356 × 265; 78 KB
- Precipitation hardening of AuCo5 at.jpg 317 × 215; 22 KB
- Precipitation hardening of AuCu14Pt9Ag4.jpg 405 × 447; 55 KB
- Precipitation hardening of CuBe2 (soft) at 325C.jpg 614 × 210; 60 KB
- Precipitation hardening of CuBe2 at 325C.jpg 453 × 208; 34 KB
- Precipitation hardening of CuBe2 half hard.jpg 460 × 211; 33 KB
- Precipitation hardening of NiBe2 soft at 480C.jpg 482 × 214; 45 KB
- Principle of sputtering.jpg 466 × 255; 36 KB
- Processes for the refining of precious metal scrap.jpg 767 × 471; 98 KB
- Progressive die for stamped contact parts.jpg 460 × 371; 45 KB
- Properties production platinum metals.jpg 900 × 172; 74 KB
- Qualitaetsmerkmale und Toleranzen.jpg 544 × 200; 31 KB
- Quality criteria and tolerances.jpg 542 × 163; 17 KB
- Quality criteria dimensions and tolerances.jpg 544 × 365; 48 KB
- Ranges of fatigue strength for selected copper materials Wieland.jpg 520 × 281; 39 KB
- Relaxation behavior of selected copper based materials.jpg 469 × 294; 55 KB
- Reserved u shaped element.jpg 228 × 96; 14 KB
- Resistance brazing (schematic).jpg 544 × 246; 20 KB
- Reversed strip.jpg 240 × 65; 9 KB
- Rough flat surface.jpg 464 × 635; 118 KB
- SEM photos of silver flakes a fine grain b large flat.jpg 468 × 205; 58 KB
- Schematic describing the contact load categories.jpg 298 × 181; 19 KB
- Seam-welding process (schematic).jpg 545 × 278; 34 KB
- Shear force of an adhesive joint.jpg 212 × 215; 17 KB
- Smallest possible bend radii for 90 bends as function.jpg 389 × 310; 47 KB
- SofteningOfCuETPafterAnnealing.png 460 × 308; 37 KB
- Softening behavior for selected copper based materials.jpg 517 × 227; 34 KB
- Softening of ARGODUR 27 after annealing.jpg 339 × 342; 53 KB
- Softening of AgCdO8812WP after annealing.jpg 318 × 276; 37 KB
- Softening of AgCdO9010P after annealing.jpg 340 × 494; 70 KB
- Softening of AgCu10 after annealing.jpg 356 × 311; 53 KB
- Softening of AgCu28 after annealing.jpg 350 × 310; 51 KB
- Softening of AgCu3 after annealing.jpg 341 × 333; 53 KB
- Softening of AgCu5 after annealing.jpg 349 × 349; 56 KB
- Softening of AgNi8020 after annealing.jpg 337 × 460; 67 KB
- Softening of AgNi9010 after annealing.jpg 397 × 452; 72 KB
- Softening of AgNiO15 after annealing.jpg 315 × 295; 38 KB
- Softening of AgPd30 AgPd50 AgPd30Cu5.jpg 279 × 261; 33 KB
- Softening of AgSnO2 92 8 PE.jpg 347 × 463; 72 KB
- Softening of Ag C 96 4 D.jpg 292 × 283; 30 KB
- Softening of Ag C DF after annealing.jpg 292 × 282; 30 KB
- Softening of Ag SnO2 86 14 WPC.jpg 288 × 246; 32 KB
- Softening of Ag SnO2 88 12P after annealing.jpg 468 × 426; 63 KB
- Softening of Ag SnO2 88 12 PE after annealing.jpg 347 × 462; 71 KB
- Softening of Ag SnO2 88 12 PW4 after annealing.jpg 337 × 493; 73 KB
- Softening of Ag SnO2 88 12 TOS F after annealing.jpg 414 × 398; 54 KB
- Softening of Ag SnO2 88 12 WPC after annealing.jpg 280 × 239; 34 KB
- Softening of Ag SnO2 88 12 WPD after annealing.jpg 318 × 244; 35 KB
- Softening of Ag SnO2 88 12 WPX.jpg 284 × 245; 34 KB
- Softening of Ag SnO2 92 8 PX after annealing.jpg 480 × 437; 66 KB
- Softening of Ag SnO2 98 2 PX after annealing.jpg 480 × 443; 69 KB
- Softening of Ag ZnO 92 8 PW25.jpg 313 × 429; 64 KB
- Softening of Ag ZnO 92 8 WPW25.jpg 280 × 271; 29 KB
- Softening of Ag after annealing after different degrees.jpg 371 × 241; 47 KB
- Softening of AuAg20Cu10 after annealing for 0.5 hrs.jpg 368 × 270; 34 KB
- Softening of AuAg26Ni3 after annealing for 0.5-hrs.jpg 375 × 281; 36 KB
- Softening of AuNi5 after annealing for 0.5 hrs.jpg 382 × 291; 36 KB
- Softening of Au after annealing for 0.5 hrs.jpg 428 × 328; 39 KB
- Softening of CuAg2 40.jpg 523 × 247; 47 KB
- Softening of CuAg2 80.jpg 507 × 247; 48 KB
- Softening of CuCr1Zr after 1hr annealing.jpg 455 × 257; 53 KB
- Softening of CuNi12Zn24 50.jpg 446 × 427; 74 KB
- Softening of CuNi25 after annealing after 50.jpg 431 × 309; 56 KB
- Softening of CuNi9Sn2 after annealing Wieland.jpg 401 × 404; 62 KB
- Softening of CuSn8 50.jpg 458 × 450; 76 KB
- Softening of CuZn36 25.jpg 446 × 389; 63 KB
- Softening of CuZn36 50.jpg 405 × 363; 63 KB
- Softening of Cu ETP after annealing.jpg 434 × 289; 51 KB
- Softening of Cu ETP after annealing 50.jpg 424 × 290; 52 KB
- Softening of NiCu30Fe after annealing for 0.5 hrs.jpg 421 × 319; 53 KB
- Softening of PdCu15 after annealing.jpg 513 × 382; 70 KB
- Softening of PdCu40 after annealing.jpg 499 × 363; 72 KB
- Softening of PtIr5 after annealing.jpg 308 × 285; 35 KB
- Softening of PtNi8 after annealing.jpg 475 × 297; 53 KB
- Softening of PtW5 after annealing.jpg 471 × 258; 46 KB
- Softening of Pt after annealing.jpg 512 × 407; 65 KB
- Softening of internally oxidized AgCdO9010.jpg 320 × 467; 66 KB
- Softening of technical grad nickel after annealing for 3 hrs.jpg 378 × 299; 37 KB
- Solar cell with print pattern of ARGONOR N920.jpg 467 × 293; 112 KB
- Spiral.jpg 220 × 77; 12 KB
- Statistical evaluation of the electrical life of relays.jpg 645 × 439; 96 KB
- Strain hardening of ARGODUR 27.jpg 385 × 270; 50 KB
- Strain hardening of AgCdO8812.jpg 329 × 286; 25 KB
- Strain hardening of AgCdO9010P.jpg 299 × 488; 60 KB
- Strain hardening of AgCu28 by cold working.jpg 394 × 314; 52 KB
- Strain hardening of AgCu3 by cold working.jpg 376 × 263; 47 KB
- Strain hardening of AgCu5 by cold working.jpg 389 × 278; 50 KB
- Strain hardening of AgCu 10 by cold working.jpg 373 × 242; 44 KB
- Strain hardening of AgNi8020.jpg 318 × 451; 67 KB
- Strain hardening of AgNi9010 by cold working.jpg 378 × 450; 70 KB
- Strain hardening of AgNiO15 by cold working.jpg 390 × 275; 48 KB
- Strain hardening of AgPd30Cu5 by cold working.jpg 328 × 321; 44 KB
- Strain hardening of AgPd30 by cold working.jpg 341 × 303; 43 KB
- Strain hardening of AgPd50 by cold working.jpg 327 × 298; 41 KB
- Strain hardening of AgSNO2 92 8 PE.jpg 300 × 462; 64 KB
- Strain hardening of Ag C 96 4 D.jpg 217 × 283; 19 KB
- Strain hardening of Ag C DF.jpg 217 × 281; 20 KB
- Strain hardening of Ag SnO2 86 14 WPC.jpg 333 × 238; 25 KB
- Strain hardening of Ag SnO2 88 12 PE.jpg 302 × 463; 56 KB
- Strain hardening of Ag SnO2 88 12 WPC.jpg 350 × 245; 27 KB
- Strain hardening of Ag SnO2 88 12 WPD.jpg 351 × 246; 27 KB
- Strain hardening of Ag SnO2 88 12 WPX.jpg 350 × 246; 27 KB
- Strain hardening of Ag SnO2 92 8 PX.jpg 489 × 444; 66 KB
- Strain hardening of Ag SnO2 98 2 PX.jpg 486 × 443; 69 KB
- Strain hardening of Ag ZnO 92 8 PW25.jpg 271 × 428; 56 KB
- Strain hardening of Ag ZnO 92 8 WPW25.jpg 279 × 272; 23 KB
- Strain hardening of Ag bei cold working.jpg 319 × 217; 35 KB
- Strain hardening of AuAg20Cu10 by cold working.jpg 312 × 208; 23 KB
- Strain hardening of AuAg20 by cold working.jpg 329 × 225; 23 KB
- Strain hardening of AuAg25Cu5 by cold working.jpg 315 × 280; 27 KB