| 工件材料 Workpiece Materials | 飼 Copper | 碑泰合金 (180-250HB) Carbon Steels, Alloy Steel | 不誘工具 (25-35HRC) Stainlers Stecls ool Steels | 孤硬化鋼 (E5-4SHRC! Fre -Hardaned Steels | 溪火 (45-55HRC) Hardened Steels | 萍火 S5-6SHRC) | Hardered steels | ||||||||||
| 切削深度(аap)比例烝数 Ratio to standard depth of cuttap! | 120% | 100% | 90% | 80% | 65% | 60% | |||||||||||
| 球半御外径 Di. Under | āp 華連(り) | 辻翁 乾連(り) mm rmin | 辻鈴 | 辻翁 | 辻鎗 華連(り | 辻翁 乾連(り) | |||||||||||
| 055 | Length | Nmmin | Imrmy'rmin! | Mm'min! | Imm'min! | Imu 'mir! | |||||||||||
| 005 | 670 | 28 | 503 | 36 | 23,940 | 036 | 22,344 | 919 | |||||||||
| 1ロ | J36 | 344 | 919 | ||||||||||||||
| 349 | |||||||||||||||||
| ü5 | |||||||||||||||||
| 075 | |||||||||||||||||
UM-BN² 高精度切削参数推襟表
UM-SN2 Recommended cutting datas to high accuracy machining
| 工件材料 Workpiece Materials | 銅 Copper | 碑泰合金 | 不誘工具 | 孤硬化鋼 | 萍火 | 萍火 | ||||||||||
| 切削深度(аp)比例烝数 Ratio to standard depth of cutlap] | 120% | 100% | 90% | 80% | 65% | 60% | ||||||||||
| 球半径 外禄 Dil. Radius | ap rmin) 装速(n) | 辻蛤 辻翁 乾速(り) | 辻蛤 乾連(り) | 華連(り) | 辻翁 乾速(り) | 辻翁 辻蛤 | ||||||||||
| mm! | ユコ | 速 Tmmymin] | 15,960 | 速度 Imrnfrmir] 1,085 | 14,364 | 速度 ヨ「「 | mrn rmin] 11,970 | 速度 Trmrnymrin! | Immymin! | |||||||
| Tmrmymrin! | 3,566 830 | |||||||||||||||
| 3u2 | ||||||||||||||||
| 02 | 15,960 | 1,085 | 14,364 | 566 | 830 | 11,970 | ;92 | 1,172 | 608 | |||||||
| ,569 | 805 | 10,474 | 7ロ | 501 | ||||||||||||
| -- | ||||||||||||||||
| 1,75 | ||||||||||||||||
I注意
対于不同工件材料,аp清按上表切削深度比例烝数辻行週整,如:溪硬 4 5 ~ S5HRC) аp需 ^ { \star } 0 . 5 _ { \circ }
Δ逸行肋槽或者撹槽加工等容易造成切屑住切削肘,切削深度泣基本切削深度乘以切削深度比例,然后再隆至透値的 8 0 % ロΔаe没定ap x 切削比率 x 3 - 5 倍。辻行精加工肘,清輸入理浴余量値的最高点。
Δ 清結合工件材料 加工形状、 使用合活的冷却液: 推祷与冷或水冷。
A実院加工中,靖考恵加工形状、 目的、 使用机床等因泰対切削糸件辻行週整。
\bigtriangleup 如果机床装速低于表中所列数値 辻蛤速度位与速按同一比例降低。
INOTE
1. For diferent materials, adust the ctting depth app acording to the cutting depth factors in the above table.E.g. for hardened Steels 145〜55HRC), \mathsf { a p } ^ { \star } 0 . 5 ま
2. When performing cting where cutting chips may cause clogging, such as for rib cutting, blind grooves, tc, ctting depth Setting should be set by multiplying a cutting depth factor to calculate the cutting depth amount, and this amount should then be reduced to 8 0 % of the calculated value.
3. Adjust by setting ae to 3 to 5 ) x ( \mathsf { a p } ) x Icutting depth Tatio]. When performing finishing processing, calculate the theoretical cusp height and set accordingly.
4. Use the approprate coolant such as air cooling or emulsion for the work materia! and machining shape.
5. In actual machining, the condition should be adjusted according to the machining shape, purpose and the machine type. 6. If the rpm of the machine is low, lower the feed rate also to put the rpm and feed rate in the Same ratio.
UM-RN2 切削参数推存表
UM-RN2 Recommended Cutting Parameters
| 工件材料 Workpiece Materials | Copper | 碾泰合金 | 不誘工具 Stecls | 預硬化鋼 Pre 5 A5iR ees | 萍火 | 萍火 | ||||||||||
| 切削深度(āp!比例烝数 | 120% | 100% | 90% | 80% | 65% | 60% | ||||||||||
| 外径 圜角 孤氏 | 乾速(り) | 辻蛤 装速(n) | 華連(り) | 辻蛤 乾速() | 辻蛤 乾速(り | 辻蛤 速度 Tr'min! 装速(n) | ||||||||||
| rrirn! | (R) m! | ITneder Lerigth | 速度 Nmmin! | r'ir! | Immfrmin! | Immymin] | Immfmin] | Tmimfmin! | mmjmin] | |||||||
| 0,02 | 000 | 922 | 42,750 | 788 788 | 670 | 35,625 | 33,250 | 429 429 | ||||||||
| 922 | 42,750 | 670 | 35,625 | ;15 | 33,250 | |||||||||||
| 35 | 38,475 | 0: | 603 | 2,063 | 29,925 | 386 | ||||||||||
| 129 | ||||||||||||||||
| 408 | ||||||||||||||||
| 03 | ||||||||||||||||
| 04 | ||||||||||||||||
| 銅 | 禊泰合金 | 預硬化 | 萍火 | ||||||||||||||
| 工件材料 Workpiece Materials | Copper | Carbor1S80-25, Ary se! | 不誘工具 | Pre fer d5ir teelt | 溪火 Har5-5'Sels | ||||||||||||
| 切削深度(ap)比例系数 Ratioto standard depth of ctlap | 120% | 100% | 90% | 80% | 65% | 60% | |||||||||||
| 外径 | (R) | 乾速(り) | 辻蛤 | 乾速(り) | 辻蛤 | 乾凍(り) | 辻鈴 | 辻蛤 | Ir'min! 装速(り) | 辻翁 店 | 鞍速(り) | 辻鈴 | |||||
| 05 | 776 | 177 | 36,385 | 980 | 32,832 | 883 | 30,643 | 753 | 27,360 | 589 | 25,390 | 483 | |||||
| 43,776 | 1,177 | 36,385 | 980 | 32,832 | 883 | 30,643 | 753 | 27,360 | 589 | 25,390 | 483 | ||||||
| 16 | 449 | 684 | 362 | ||||||||||||||
| 06 | |||||||||||||||||
UM-RN2 功削参数推存表
UM-RN2 Recommended Cutting Parameters
| 工件材料 Workpiece Materials | 銅 Copper | 碑泰合金 | 不誘工具 | 預硬化 | 溪火 萍火 | ||||||||||||
| 切削深度(ap)比例家数 120% | Carbor1s80-25,Aib sel 100% | 90% | 65% | ||||||||||||||
| 山ロ 山日山 Cutlap 國角 孤氏 | 辻蛤 | 辻蛤 装速(n) 速度 | 辻翁 装速(n) 速度 | 80% 辻翁 装速() 速度 | 辻蛤 装速(n) 速度 | 60% 芋速(り) | |||||||||||
| 1i Dia. nn! | mm! | Under Netk. rigt | 」 | 華速(n) r'min! | 速度 Imm'min! | Tr'min! | mm min! | r'min] | (W. mm'min! | r'min! | V mm'min] | r'min! | ImmImin! | Ir'min! | 速度 (Wん. mm'min] | ||
| 0.02 | 91: | 045 | 583 | 6,160 14,364 | 602 | 15,082 13,406 | 633 482 | ||||||||||
| 135 | 350 | 26,322 | ,105 | ||||||||||||||
| 銅 | 預硬化銅 | 萍火 | 溪火 | ||||||||||||||
| 工件材料 Workpiece Materials | Copper | 禊泰合金 | 不誘工具 Stainle's asliroI sel | ||||||||||||||
| 切削深度(ap)比例系数 120% Ratio to staridard depth of cutlap! | 100% | 90% | 80% | 65% | 60% | ||||||||||||
| Unde | āp 乾連(り) | Imm'min! | 乾連(り) mm'min | 乾凍(り) | Imm'min! | 乾連(り) | Imm'min | 乾速(り) | mm'min! | Tr'min! 装速(n) | mm'min! | ||||||
| (mm | m! | 23 | 14,364 | 602 | 12,928 | 542 | 12,209 | 475 | 10,773 | 388 | 10,055 | 301 | |||||
| ,25 | 818 2,269 | 30,255 | 1,815 | 27,834 | 1,669 | 26,322 | 1,421 | 23,296 | 1,113 | 21,783 | 915 | ||||||
| 145 | 前82 633 | ||||||||||||||||
UM-RN2 功削参数推存表
UM-RN2 Recommended Cutting Parameters
| 工件材料 Workpiece Materials | 銅 Copper | 磯泰合金 Cabon se-s Ainy sel | 不誘工具 | 預硬化 | 溪火 | 萍火 | |||||||||||
| 切削深度(ap)比例丞数 Ratio to standard depth of cutlap] | 120% | 100% | 90% | 80% | 65% | 60% | |||||||||||
| 外径 國角 孤氏 | 華連(り) | 辻翁 速 華連(り) | 辻翁 乾連(り) | 辻蛤 乾連(り) | 辻翁 | 辻蛤 乾速(り) | 辻飴 乾連(り) | ||||||||||
| Trrm! 1,75 | R mm! | Imm fmin! | Mm'min | Immfmin! | mm'min! | mm/min] | |||||||||||
| 「」 | 265 | 18,959 | 17,547 | 803 | |||||||||||||
| 963 | 354 | 13,406 0,421 | 614 | ||||||||||||||
| 128 | 89 | 449 | |||||||||||||||
| 工件材料 | 銅 | 礒泰合金 | 不誘工具 | 預硬化銅 | 萍火 | |||||||||||
| Workpiece Materials | Copper 120% | Carbon e-25 Air! tel | Pre T5-ASiRSees | 萍火劔 | ||||||||||||
| 切削深度(āpu比例烝数) | 100% | 90% | 80% | 65% | 60% | |||||||||||
| Dian | 国魚 | ヨ山 | 乾連(り) | Immymin! | Imm/min! | JmmyMin! | 乾連(り) | Immymin! | 華連(り) | |||||||
| mn! | Imm'min! ,960 | 1,471 | 1,389 | 12,120 | Immymin! | |||||||||||
| 391 | ,742 | 16,160 14364 | 1534 | 14,544 | 3,736 | 10.773 | 1,089 | 11,312 | 889 | |||||||
| 2,928 | 120日 | 968 | 10,055 ,798 | 790 520 | ||||||||||||
| 8: | ||||||||||||||||
UM-RN2 功削参数推存表
UM-RN2 Recommended Cutting Parameters
| 6 | |||||||||||||||||
| 工件材料 Workpiece Materials | 銅 Copper | 碑泰合金 | 不誘工具 | 預硬化劔 | 萍火 | 滹火 | |||||||||||
| 切削深度(ap)比例家数 Ratio to standard depth | cutlap] 120% | 100% | 90% | 80% | 65% | 60% | |||||||||||
| 外径 國角 頸氏 | 辻蛤 装速(p) min! | 辻蛤 | 辻翁 乾速(り) | 辻蛤 華速(p) rmin | 辻翁 乾連(り) | 辻鈴 | |||||||||||
| 47ロ | ,234 | 037 | 8,618 | 847 | |||||||||||||
| 山:3 | 44日 | 川1 51日 | ü8 | 025 | 18 | 32 | 6,703 | 590 | |||||||||
| 086 | コ | 6,703 | 590 | ||||||||||||||
| 046 | |||||||||||||||||
| 14日 | |||||||||||||||||
| 銅 | 預硬化銅 | ||||||||||||||||
| 工件材料 Workpiece Materials | Copper | 禊泰合金 | 不跨工具 | Pre-A5-ASHR eels | 萍火 | 萍火 HaA5-'Sels | |||||||||||
| 切削深度(аap)比例丞数 120% | 100% | 90% | 80% | 65% | |||||||||||||
| Ratio to standard depth of cuthap! | 乾連(り) | ||||||||||||||||
| 国角 | 連(り) | mm min 126 | 乾連(り) | 乾連(り) | mmymin! | 乾連(り) | Imm'min! | ||||||||||
| 82 | 1 | 817 | 6,088 | 667 | |||||||||||||
| 821 | 226 | 817 | 6,088 | 667 | |||||||||||||
| ;26 | |||||||||||||||||
UM-RN2 功削参数推存表
UM-RN2 Recommended Cutting Parameters
I注意!
A対于不同工件材料,ap清按上表切削深度比例系数辻行週整,如:溪硬 (4555HRC) トト一ロで目 аp需 ^ { \star } 0 . 5 _ { \circ }
\bigtriangleup 辻行助槽或者判槽加工等容易造成切屑住切削肘 切削深度位基本切削深度乘以切削深度比例,然后再隆至遂値的 8 0 % \bigtriangleup āe没定ap x 切削比率 x 3 - 5 倍。辻行精加工肘,清輸入理診余量値的最高点。
Δ清桔合工件材料、 加工形状、 使用合活的冷却液, 推襟与冷或水澄。
実院加工中, 靖考恵加工形状、 目的、 使用机床等因泰 対切削条件辻行週整。
如果机床姜速低于表中所列数値, 則辻蛤速度位与装速按同一比例隆低
I NOTE I
I. For diferent materials, adjust the ctting depth ap acoding to the cutting depth factors in the above table.E.g. for hardened Steels 45〜55HRC), \mathsf { a p } ^ { \star } 0 . 5 ロ
2. When performing cutting where cutting chips may cause clogging, such as for rib cutting, blind grooves, etc. cutting depth Setting should be set by multiplying. cutting depth factor to calculate the cutting depth amount, and this amount should then be reduced to 8 0 % Of the calculated value.
3. Adjust by setting ae to 3 to 5 ) x ( \mathsf { a p } ) x Icutting depth ratio). When performing finishing processing, calculate the theoretical cusp height and set accordingly.
4. Use the approprate coolant such as air cooling or emulsion for the work material and machining shape.
5. In actual machining, the condition should be adjusted acording to the machining shape, purpose and the machine type. 6. If the rpm of the machine is low, lower the feed rate also to put the rpm and feed rate in the same ratio.
UM-RN2 高精度切削参数推襟表
UM-RN2 Recommended cutting datas to high accuracy machining
| 工件材料 Workpiece Materials | Copper | 礙泰合金鋼 | 不誘工具 | 孤硬化鋼 Pre 5-45HR teel | 萍火 Harderied | 萍火 | ||||||||||||
| 切削深度(āp!比例烝数 | 120% | 100% | 90% | 80% | 65% | 60% | ||||||||||||
| 乾速(り) | 乾連(り) | 乾凍(り) | 乾速() | |||||||||||||||
| mm) | mm! | 日画 | Imn'min! | 乾連() | Immymin! | 乾凍() | mm'min! | Imm'min! | Imm'min! | Imr'min! | ||||||||
| ,000 | 192 | 50,000 | 245 | 50,000 | 219 | 50,000 | 195 | 50,000 | 71 | 50,000 | 152 | |||||||
| 0,02 | ロ- | 50,000 | 245 | 50,000 | 119 | 95 | 50,000 | 50,000 | 152 | |||||||||
| 900 | 192 | 5,910 | 865 | 865 | 140 | |||||||||||||
| 152 | ||||||||||||||||||
| 5 | ||||||||||||||||||
| J04 | ||||||||||||||||||
| 45 | ||||||||||||||||||
| 04 005 | 0.02 | 90 | ||||||||||||||||
Um-RN² 高精度切削参数推襟表
UM-RN2 Recommended cutting datas to high accuracy machining
| 工件材料 Workpiece Materials | 銅 Copper | 磯泰合金 (180-2F0H日) Carbon steels. Alloy Steels | 不透工具 25-35HRC) Stainlers Steels,fool steels | 孤硬化 (35-45HRC) Pre-Hardened Steels | 萍火 (45-5SHRC) Hardened Steels | 溪火 G5-65HRC) | ||||||||||||
| 切削深度(ap)比例丞数 Ratio to standard depth of cutlap] | 120% | 100% | 90% | 80% | 65% | Hardened Steels 60% | ||||||||||||
| 外径 國角 | 辻蛤 | 辻蛤 | 辻蛤 乾速(り) | 辻翁 華速(り) | 辻蛤 | 乾速(り) | 辻鈴 | |||||||||||
| 目 | ||||||||||||||||||
| 853 | 50,000 | 718 | 38,000 | 441 | 28,500 | 359 | 26,600 | 299 | ||||||||||
| 152 | 50,000 | 718 | 000 | 441 | 28,500 | 359 | 26,600 | 299 | ||||||||||
| 12,750 | ;5ü | 393 | 650 | 299 | 23,275 | 248 | ||||||||||||
| 359 | 800 | 9,000 | ||||||||||||||||
| 150 | ||||||||||||||||||
| 工件材料 Workpiece Materials | Copper | 禊泰合金 Carbo s0-2,Aisy sel | 不誘工具 | 預硬化 Pre 75-45iR Sel | 汗火 Har5-5i'Reels | 汗火 HA5-!'Res | ||||||||||
| 切削深度(ap)比例泰数 | 120% | 100% | 90% | 80% | 65% | 60% | ||||||||||
| Ratio to standard depth of cuthap! 外径 圓角 Urder | 辻鎗 装速(n) 速度 | 辻鈴 華速() 速度 | 辻鈴 装速(p) 速度 | 装速(り) | 辻翁 速度 装速(り) | 辻蛤 辻飴 速度 華速(p) 速農 | ||||||||||
| Dia. | 002 | Netk Engt | 日p | Ir'min! | ) Imm'min! 7: | rmin] 9,391 | (V. Imr min! 732 | rmin] 17,452 | (. Imm'min] 658 | Tr'min) 16,483 | V. Tmrn 'min! | Ir'min! 14,544 | (V. Imm min! 488 | r'min! | Imrn'min! 398 | |
| 579 | 928 79 | 13,574 12,066 | 304 | |||||||||||||
| 1,491 | 914 | 3,701 | 758 | |||||||||||||
| 62: | 678 | |||||||||||||||
| 005 | 12 | |||||||||||||||
| 98 | ||||||||||||||||
| 066 | 304 | |||||||||||||||
| 1 | ||||||||||||||||
| ;78 | ||||||||||||||||
| -上 | 64 | |||||||||||||||
| ;12 | ||||||||||||||||
| , | ||||||||||||||||
| 04 | ||||||||||||||||
| 50 | ||||||||||||||||
| 190 | ||||||||||||||||
| 758 | ||||||||||||||||
Um-RN² 高精度切削参数推襟表
UM-RN2 Recommended cutting datas to high accuracy machining
| 工件材料 Workpiece Materials | 銅 Copper | 碑泰合金 Carbor1s80-25,Ai sel | 不誘工具 | 孤硬化鋼 Pre Fe5-A5R tel | 萍火 Ha isec | 溪火 | ||||||||||
| 切削深度(āpu比例丞数 | 120% | 100% | 90% | 80% | 65% | 60% | ||||||||||
| mm! mm! | 魚 Uinder | 乾連() mmymin] | 乾連(り) | Imrnfmin] | 乾速(り) | mimnf'mrin! | 鞍速(り) Imnfmin] | 乾連(り | mimnd'min! | 乾速(り) | Immymin! | |||||
| 1,635 | 341 | 989 | 299 882 | 9,696 0,568 | 244 | 9,050 | 190 | |||||||||
| 1.25 | 096 | 583 | 691 | 9,198 | 564 | |||||||||||
| 544 | 188 | 574 | 398 | |||||||||||||
| 05に | ||||||||||||||||
| ロ | ||||||||||||||||
| 工件材料 Workpiece Materials | 飼 Copper | 禊泰合金 (180-250HB) | 不誘工具 (25-35HRC) | 預硬化 | 汗火 | 溪火 | |||||||||||
| 切削深度(ap)比例烝数 | Carbon Steel5, Alloy Steels | Stainlers Stecls Tool steels | Fre-Hardened Steels | E5-4SHFC! | (45-55HRC) Hardened Steels | G5-6SHRC) Hardened Steels | |||||||||||
| Ratio to standard depth of cuttap! 外径 圓角 | 120% 辻鈴 | 100% 辻翁 | 90% | 辻蛤 | 80% 辻鈴 | 65% 辻翁 | 60% 辻飴 | ||||||||||
| (R) | āp | 乾連(り) | 乾連(り) | 乾連(り) | 乾速(り) | ||||||||||||
| 1,75 | 188 | ,684 | 1,074 | 21,330 | 966 | 19,908 | 825 | 17,775 | 644 | 16,496 | 528 | ||||||
| 976 | 19 | 878 | 」 | 829 | 16 | 160 | 651 | 15,082 | 531 | ||||||||
| 4日日 | 540 1 | 1- | 185 | 0.05 | 354 | 9,384 | 283 | ||||||||||
| 405 | 9,384 496 6 | 283 | |||||||||||||||
| - | ,082 | 528 | |||||||||||||||
| 53/ | |||||||||||||||||
| 183 | 283 | ||||||||||||||||
| 98 | |||||||||||||||||
| 815 | 761 | ||||||||||||||||
| 69 | |||||||||||||||||
| 51 | |||||||||||||||||
| 498 | |||||||||||||||||
| 18 | 436 | ||||||||||||||||
| 90 | |||||||||||||||||
| 98 | |||||||||||||||||
Um-RN² 高精度切削参数推襟表
UM-RN2 Recommended cutting datas to high accuracy machining
| 工件材料 Workpiece Materials | 銅 Copper | 磯泰合金 (180-250H日) Carbon steels, Altoy steels | 不誘工具 (25-35HRC) | 孤硬化鋼 (35-45HRC) Pre-Hardened Steels | 萍火 (45-5SHRC) Hardened Steels | 萍火 G5-65HRC) Hardened Steels | ||||||||||||
| 切削深度(ap)比例丞数 Ratio to standard depth of cutlap] | 120% | 100% | Stainlers Steels,fool steels 90% | 80% | 65% | 60% | ||||||||||||
| 乾速(り) | 華速(り) | 華速(り) | 乾速(り) | |||||||||||||||
| 4,544 | ,029 | 13,089 | 926 | 2352 | 875 | 10,908 | 686 | 10,180 | 561 | |||||||||
| 915 | ,635 | 824 | 10,989 | 777 | 9,696 | 610 | 9,050 | 498 | ||||||||||
| 301 | 10,180 80 | 20 | 615 | 680 | 8,484 | 534 | 7,918 7,918 | 436 | ||||||||||
| 1 | 611 | 8,484 05ü | 480 - | 371 | 390 | |||||||||||||
| 1ゴ | ||||||||||||||||||
| ロ | ||||||||||||||||||
| 198 | ||||||||||||||||||
| 日 | ||||||||||||||||||
| 658 | ||||||||||||||||||
| 工件材料 Workpiece Materials | 飼 Copper | 禊泰合金 (180-250HB) | 不誘.工具 25-35HRC) | 預硬化鋼 E5-4SHFC! | 溪火 45-55HRC) | 溪火 G5-65HRC) | |||||||||||||
| 切削深度(ap)比例丞数 | 120% | Carbon Steels, Altoy steels 100% | Stainles Stels rool steels 90% | Pre Hardened Steels 80% | Hardened Steels 65% | Hardened Steels 60% | |||||||||||||
| Ratio to standard depth of cuttap! 外径 圓角 | p | 辻蛤 乾連(り) | 辻翁 華連(り) | 乾連(り) | 辻翁 華連(り) | 辻翁 乾連(り) | 辻蛤 | 辻翁 乾連(り) | |||||||||||
| 目 | (R) | 51- | 店 | ||||||||||||||||
| 680 | 344 | 110 | 43 | 10,260 | 807 | 9,576 | 658 | ||||||||||||
| 1 | 10,260 | 807 | 9,576 | 658 | |||||||||||||||
| 250 | :07 | 9,576 | 8,572 | 658 | |||||||||||||||
| 589 | |||||||||||||||||||
| 533 | |||||||||||||||||||
| ;5: | 5 | ||||||||||||||||||
| 658 | |||||||||||||||||||
| 0: | |||||||||||||||||||
Um-RN² 高精度切削参数推襟表
UM-RN2 Recommended cutting datas to high accuracy machining
| 工件材料 Workpiece Materials | 銅 Copper | 碗泰.合金 | 不誘工具 | 廼硬化 Pre F5-45iRSes | 萍火鋼 | 淨火 Hha5et'Ses | ||||||||||
| 切削深度(аp)比例宗数 | 120% | 100% | 90% | 80% | 65% | 60% | ||||||||||
| Ratio to standard 外径 | 圓角 | depth af cutlap! | 辻蛤 乾連(り) | 辻翁 華連(り) | 辻蛤 乾連(り) | 辻翁 | 辻蛤 | |||||||||
| (R) | rrm! | 2,223 | 10,652 | 1,667 | ||||||||||||
| 12 16 | 04 | 12,782 11,742 | 2,042 | 9,742 | 1,853 1,694 | 9,586 8,697 | 1,512 | 9,054 8,262 | 1,575 1,436 | 7,990 7,219 | 1,112 1,004 | 7,457 6,350 | 908 | |||
| 山4 | 15 | 1日 | 1,004 | 6,350 | 773 773 | |||||||||||
| 14- 42 69 | 」 | 654 | 4,868 | |||||||||||||
| ;5- | 868 | 533 | ||||||||||||||
| 913 | ;33 340 | |||||||||||||||
| ;98 | ||||||||||||||||
| 2日 | ||||||||||||||||
| ;98 | ||||||||||||||||
| ;98 | ||||||||||||||||
| 日: | ||||||||||||||||
| とに | ||||||||||||||||
| :: | ||||||||||||||||
| 709 | ||||||||||||||||
| 483 | ||||||||||||||||
| 926 | ||||||||||||||||
| 12日 | ||||||||||||||||
I注意
Δ対于不同工件材料,ap清按上表切削深度比例奈数辻行週整,如:萍硬 4 5 ~ 55HRC) аp需 ^ { \star } 0 . 5 _ { \circ }
清黠合工件材料、 加工形状、 使用合活的冷却液, 推襟与冷或水澄。
Δ宍阮加工中,清考恵加工形状、目的、使用机床等因泰,対切削糸件辻行週整。
如果机床鞋速低于表中所列数値, 則辻蛤速度位与装速按同一比例隆低。
INOTE
1.For different materials, adjust the cutting depth ap) according to the cutting depth factors íñ the above table. E.g. for
hardened steels (45〜55HRC) \mathsf { a p } ^ { \star } 0 . 5
2. Use the appropriate coolant such as air cooling or emulsion for the work material and machining shape.
3. In actual machining, the condition should be adjusted according to the machining shape, purpose and the machine type.
4,.If the rpm of the machine is low, lower the feed rate also to put the rpm and feed rate in the same ratio.
UM-RN4 高精度切削参数推襟表
UM-RN4 Recommended cutting datas to high accuracy machining
| 工件材料 Workpiece Materials | 銅 Copper | 碗泰.合金鋼 | 不誘工具 | 孤硬化鋼 Pre 05-45HRSel | 萍火 Ha isec | 溪火 | |||||||||||
| 切削深度(ap!比例烝数) | 120% | 100% | 90% Steelstoo! | 80% | 65% | 60% | |||||||||||
| 国魚 | 日p 乾連(り) | 乾凍(り) | 乾速() | 華凍(り) | 乾連(り) | 乾速(り) | |||||||||||
| Imm! | mm | mmny'min! | Imrn'min! | mimy'mrin! | Imrn'min] 1,669 | 3,947 | mrn'min! | Immy'min! | |||||||||
| 0 | 440 | 3ー12 | 28,008 | 「5 | 1,230 | 22,749 | 1,000 | ||||||||||
| 680 | 11: | 18,422 | 810 | ||||||||||||||
| 100 | 160 1 | 720 | |||||||||||||||
| 30 | |||||||||||||||||
| 工件材料 Workpiece Materials | 銅 | 碑泰合金 | 不誘工具 | 孤硬化嗣 | 萍火 | 萍火 | ||||||||||||
| 切削深度(ap)比例系数 | Copper | Carbo see, airy tel | Stainles2 teloroI sel | Pre 5,i Seel | 65% | 60% | ||||||||||||
| Ratio to standard depth of cutfap! 外径 圓角 | 120% 辻鎗 | 100% 辻鎗 | 90% 辻翁 | 80% 辻鎗 | 辻蛤 | 辻è | ||||||||||||
| ! | () mm! | ヨp | 乾凍(り) | 速度 | 乾速(り) | 速 Tmm min! | 乾速(り) | Immf'rmin! | 乾連(り | 速度 Tmrn'rin! | 鞍速(り) | 速 | 乾連(り) | Trnrn'min! | ||||
| 15 | 8,900 | 840 | 8,300 | 690 | ||||||||||||||
| ロ | 100 | 8,900 | 840 | 8,300 | 690 | |||||||||||||
| 800 | ,900 | 650 | ||||||||||||||||
| 60ü | 200 | |||||||||||||||||
UM-RN4 高精度切削参数推襟表
UM-RN4 Recommended cutting datas to high accuracy machining
| 3 | 」 | ||||||||||||||
| 銅 Copper | 磯泰合金鋼 Carbor1s80-25,Ai sel | 不酥工具 | 預硬化劔 Pre fe5-A5iRSes | 萍火 | 萍火 | ||||||||||
| 切削深度(āpじ比例烝数 | 120% | 100% | 90% | 80% | 65% | 60% | |||||||||
| 外径 圜角 (R) Tnder | 乾凍() | 辻翁 速度 | 辻翁 | 辻蛤 乾速(り) | 辻翁 乾速(り) 速 | 辻鎗 乾連(り) 速度 | 乾連() | 辻鈴 | |||||||
| mm! | mm | Lng山 | Imrn min! | 連(り) | Imrnfrmin] | mrnf'mrin] | Imnfmin] | Imrn'min] | Immny'min! | ||||||
| ,360 | 13,000 13,000 | -120 | 10,800 | 1,410 | 10,100 | 1,160 | |||||||||
| 350 | 010 | ,800 | 410 410 | 0,100 | 1,160 60 | ||||||||||
| 工件材料 Workpiece Materials | |||||||||||||||
| 切削深度(ap)比例系数 | 銅 Copper | 禊泰合金 | 不誘工具飼 | 孤硬化鋼 Pe e Asur el | 萍火 | 萍火 | |||||||||
| Ratio to standard depth of cutlap! | 120% 辻蛤 | 100% 辻鎗 | 90% 辻翁 | 80% | 65% | 60% 辻鎗 | |||||||||
| 外径 Doi mm) | 圓角 (R) mm! 05 | 頸歩 | лp | 華速(り) | 速度 Imrn'min! | 乾凍(り) | 速度 Imrmny'min! | 速度 Imrn'min! | 華速(り) | 辻鎗 速度 Imrn'min! | 華凍(り) | 辻飴 速度 Immjmin! | 乾連(り) | 速度 Imrn'min! | |
| 72 | 015 | 7,800 | 2,100 | 6,500 | 1,750 | 5,800 | 1,570 | 5,500 | 1,320 | 4,900 | 1,090 | 4,500 | 820 | ||
| 30 | 0,55 | 8,600 | 2,330 | 7,200 | 1,940 | 6,500 | 1,750 | 6,100 | 1,650 | 5,400 | 1,300 | 5,000 | 980 | ||
| 54 | 04 | 7,800 | 2,100 | 6,500 | 1,750 | 5,800 | 1,570 | 5,500 | 1,320 | 4,900 | 1,090 | 4,500 | 820 | ||
| 72 | 022 | 7,800 | 2,100 | 6,500 | 1,750 | 5,800 | 1,570 | 5,500 | 1,320 | 4,900 | 1,090 | 4,500 | 820 | ||
I注意
\bigtriangleup 対于不同工件材料,ap清按上表切削深度比例系数辻行週整,如:溪硬 (45〜55HRC),ap需 ^ { \star } 0 . 5 _ { \mathfrak { c } } \bigtriangleup 清結合工件材料、 加工形状、使用合活的冷却液, 推祷与今或水冷Δ宍阮加工中,清考恵加工形状、目的、使用机床等因泰,対切削糸件辻行週整。Δ如果机床速低于表中所列数値 則辻蛤速度位与速按同一比例隆低。
INOTE
1. For different materials, adjust the cutting depth Qap) according to the cutting depth factors in the above table. E.g. for hardened
Steels 145〜55HRC) \mathsf { a p } ^ { \star } 0 . 5
2. Use the appropriate coolant such as air cooling or emulsion for the work material and machining shape.
3. In actual machining, the condition should be adjusted according to the machining shape, purpose and the machine type.
4. If the rpm of the machine is low, lower the feed rate also to put the rpm and feed rate in the same ratio.
附禄 Appendix
Cutting Parameters and General Formula For Milling銑削加工的切削参数与通用辻算公式
| 常用参数及其単位 Parameter and Unit | |||||||
| 銑刀宣径 | Diameter | (mm) | - = | 毎辻蛤量 | Feeding per Revolution | mmjrev! | |
| 切削深度 | Cutting Depth | mm) | -- íz | 毎刀辻蛤量 | Feeding per Tooth | mm/tooth) | |
| āe | 切削寛度 | Cutting Width | (mm) | 刀刀数 | Teeth Number | ||
| 辻蛤速度 | Feed Speed | mm/min! | -- - | 主柚装速 | Spindle Speed | Trev/min | |
| Vç | 切削速度 | Cutting Speed | (m/min! | -- | 工作台忌辻蛤氏度 | (工伴長慶幌力直仁:十-) | (mm) |
| Tç | 加工肘間 | Processing Time | min) | -- 0 | 金属切削率 | Metal Removal Rate | Icm'/min) |
| 通用辻算公式 General Formula | |||
| 主軸装速 | Spindle Speed ı | n - yc叙go0 r/min) ×D | |
| Vç | 切削速度 | Cutting Speed -- | Ve- IX..Xn(m/min) 1000 |
| íz | 毎刀辻蛤量 | Feeding per Tooth -- | í- Vf (mm) ŽXn |
| v | 辻蛤速度 | Feed Speed | -- Vf=n×fz×Z (mm/min) |
| 金属切削率 | Metal Removal Rate =- | O- aeXaBxye mm) | |
| Tç | 加工肘間 | Processing Time -- | Tc- min) Vf |
| TAMENG | 工件材料 | |||||
| p | P1 | 低碗,氏切層 Low-carbon Steel, Long Chipping | C | 530 | ||
| P2 | 低碗短切屑易切 Low-carbon Steel, Short Chipping. Free-cutting Steels | C | 530 | |||
| P3 | 高及中edumeabon ece | C0.25% | 530 | 220 | ||
| P4 | 合金御,工具鋼 Alloy Steels, Tool Steel. | C025% | 600-850 | 330 | ||
| P5 | 合金,工具 Alloy Steel5, Tool Steel | C-0,25% | 850-1400 | 340-450 | 35-48 | |
| P6 | 飫泰体不誘,弓氏体不誘,PH不誘 Ferritic Stainless Steel, martersitic Stainless Steel, Ph stairless Steels | C-00-0,4)% | 600-900 | |||
| P7 | 度素休不黙号氏休不誘観,P不酥Sas | C-10.1-0.6% | 900-1350 | 330-450 | 35-48 | |
| N 不誘 | M1 | 奥氏体不誘訥 Auttenitic Stainleig Steel | C-00.05-0.15!% | 130-200 | ||
| M2 | 高度的央氏体和造不酥dCa Sas,Se | C-00.05-0.15!% | 600-800 | 150-230 | ||
| K | M3 | C-00.05-0,20)% | 135-275 | |||
| K1 | 125-500 | 120-290 | く32 | |||
| K2 | 中等加正雅度的合金術秩球黌桔秩 Moderately Difficult Alloy Cast lron, Nodular Cast lror. | 130-260 | く28 | |||
| 鋳鉄 Cast Iron | K3 | 600 | 180-350 | く43 | ||
| N1 | 520 | 60-90 | ||||
| N2 | 鋳造舶合金 Cat Aluminiurm Alloys | Si | 70-100 | |||
| N 有色材料 Nonferou | N3 | 造銀命金Aos | Siz12% | 200-320 | 60-120 | |
| N4 | 200-650 | 60-200 | ||||
| N5 | Ta!! Graphite CFK cFRP | 600-1500 | ||||
| N6 | 幕令材料OMMC!GEKCFK | 210 | ||||
| ş | Š1 | 鉄基高温合金 For-based Heat-resistant Alloys | 500-1200 | 160-260 | 25-48 | |
| $2 | 1000-1450 | 250-450 | 25-48 | |||
| 耐熟合金 鉢合金 Heat-resistant | $3 | 高温食金testantAloys | 600-1700 | 160-450 | ||
| Titanium Alloys Alloys. | $4 | 賢誌食tanim Aloys | 900-1600 | 300-400 | 33-48 | |
| H 高硬度材料 | H1 | 45-55 | ||||
| H2 | 冷d sels | 55-60 | ||||
| H3 | 冷t sel | 60-65 | ||||
| H4 | sel | 65 |
Reference table of workpiece materials 工件材料常用牌号対照表
| 工件材料 Workpiece Materials | 中国 | 德国 | 日本 | 美国 | 法国 | 英国 | 欧洲 | |
| GB | 材料号 | DIN | Jis | AISI/SAE | AFNOR | Bş | EN | |
| P1 | 15 | 10401 | ç15 | S15ç | 1015 | ç12 | 080M15 | ç15 |
| P1 | 20, ML20 | 1,0402 | ç22 | S22ç | 1020 | ç20 | 050A20 | 1ç22 |
| P1 | 15 | 1.1141 | Ck 15 | S15ç | 1015 | XC15 | 080M15 | 2ç15 |
| P2 | Y15 | 10715 | 1fM280 | SUM 22 | 1213 | $250 | 230M07 | 11SMn28 |
| P2 | Y15Pb | 1.0718 | 9SMnPb28 | SUM22L | 12L13 | S250Pb | 11SMnPb28 | |
| P2 | Y13 | 1.0736 | 9SMn36, 11$Mn37 | SUM25 | 1215 | $300 | 240M07 | 11SMn37 |
| P2 | 1.0737 | 9SMnPb 36: 11 SMnPb37 | 12L14 | S300 P | 11 SMnPb37 | |||
| P3 | 35 | 10501 | ç35 | S35C | 1035 | SMnPb 36 CC35 | 060A35 | 1ç35 |
| P3 | 45 | 1,0503 | ç45 | S45ć | 1045 | çç45 | 080M 46 | 1ç45 |
| P3 | 7G340-640,55 | 10535 | ç55 | S55ć | 1055 | ç55 | 070M55 | 1ç55 |
| P3 | 60 | 10601 | ç60 | S60C-CSP | 1060 | AF70ç55 | 080A62 | 1ç60 |
| P3 | Y35, Y30 | 10726 | 35S20 | 1140 | 35MIF4 | 212M36 | 35S20 | |
| P3 | 60Si2CrA; 60Si2Mn | 1.0961 | 60 Sicr7 | SUP7 | 9262 | 60Sç7 | 250A61 | 60 Sicr8 |
| P3 | 40Mn | 11157 | 40Mn4 | 1039 | 35M5 | 150M36 | ||
| P3 | 25,ML25 | 11158 | Ck25 | S25ć | 1025 | ×ç25 | 070M26 | 2ç25 |
| P3 | 35Mn2 | 1.1167 | 36Mn5 | SMn 438 (H) | 1335 | 40M5 | 150M36 | |
| P3 | 30Mn2 | 11170 | 28 Mn6 | ScMn1 | 1330 | 35M5 | 150M28 | 28Mn6 |
| P3 | 35Mn | 1,1183 | Cf35 | S35C | 1035 | Xç38TS | 060A35 | ç35G |
| P3 | Ck45, 45, Mn45Mn; 7G310-570 | 1.1191 | Ck45 | S5ç | 1045 | Xç42 | 080M46 | 2ç45 |
| P3 | 55 | 1,1203 | Ck55 | S55c | 1055 | XC55 H1 | 070M55 | 2ç55 |
| P3 | 50 | 11213 | Cf 53 | S50c | 1050 | XC48TS | 060A57 | C53G |
| P3 | 60Mn,60 | 1,1221 | Ck60 | S58c | 1060 | Xç60 | 060A62 | 2℃60 |
| 工件材料 Workpiece Materials | 中国 | 德国 | 日本 | 美国 | 法国 | 英国 | 欧洲 | |
| GB | 材料号 | DIN | Jis | AISI/SAE | AFNOR | B$ | EN | |
| P3 | 1,1274 | Ck 101 | SUP_4 | 1095 | Xc 100 | 060A96 | ç100S | |
| P3 | T10 | 1,1545 | C105 w1 | W110 | Y105 | BW1A | ç105Ü | |
| P3 | 1,2067 | 100 Cr6 | L3 | Y100c6 | BL3 | 102Cr6 | ||
| P3 | CrWMo; CrWMn; 9CrWVMn | 12419 | 105 WCr6 | SKS31 | (107 WCr 13) | 105 WCr5 | ||
| P3 | 5CrNiMo, 5CrW2Si | 1,2542 | 45 WCrV7 | Š1 | 45 WCrV8 | Bs1 | 45 WCrV8 | |
| P3 | 5CrNiMo | 12713 | 55 NiCrIMoV 6 | SKT 4 | L6 | 55 NCDV T | BH224/5 | 55 NiCriMoV T |
| P3 | 15415 | 15 Mo3 | STFA 12-240 | A204 Gr. A | 15D3 | 1501 | 16 Mo3 | |
| P3 | 1,5622 | 14Ni6 | SL2N26 | A350-LF5 | T5N6 | FeE285 Ni6 | ||
| P3 | 1.6511 | 36 CrNiM0 4 | 9840 | 40NCD3 | 816M40 | 36 CrNiM0 4 | ||
| P3 | 40CNiMoA | 1.6582 | 34 CrNiMo6 | SNCM 447 | 4340 | 35NCD6 | 817M40 | 34 CrNiMo6 |
| P3 | 1.6587 | 17 CrNiMo 6 | SNCM 8I5 | 18NCD6 | 820A16 | 17 CrNiMo 7 | ||
| P3 | 15Cr | 1.7015 | 15Cr3 | SCr 415 H | 5015 | 12ç3 | 523 M15 | 15Cr2 |
| P3 | 35Cr | 1.7033 | 34Cr4 | SCr430H | 5130H | 32ç4 | 530A32 | 34Cr4KD |
| P3 | 40Cr | 1.7045 | 42℃r4 | SCr440 | 5140 | 42℃4TS | 530A40 | 40 NiCrM03 |
| P3 | 1,7035 | 41Cr4 | SCr440(H) | 5140 | 42ç4 | 530M40 | 24 | |
| P3 | 1,7380 | Mo910 | ASTM A182 | 12CD9; | 1501-622 | |||
| P3 | 40Cr | 1,7045 | 42Cr4 | SCr440 | F22 5140 | 12CD10 42℃415 | Cr31, 45 530A40 | 40 NiCrMo3 |
| P3 | 18CrMn; | 1.7131 | 16 MnCr5 | SCR415 | 5115 | 16MC5 | 527 M 17 | 16 MnCr5 KD |
| P3 | 20CrMn; 5oCrMn | 1.7176 | 55Cr3 | SUP9 (A) | 5155 | 55ç3 | 527A60 | 55 Cr3 |
| P3 | 30CrMn; | 1,7218 | 25CrM04 | SCM 420 | 4130 | 25CD4 | 708A25 | 25CrM04KD |
| P3 | SOCrVA | 1.8159 | SUP10 | 6150 | 50CV4 | 735A50 | 51CrV4 | |
| P3 | 35CrM0 | 1,7220 | 34CrMo4 | 4 | 35CD4 | 708A37 | ||
Reference table of workpiece materials 工件材料常用牌号対照表
| 工件材料 Workpiece Materials | 中国 | 德国 | 日本 | 美国 | 法国 | 英国 | 欧洲 | |
| GB | 材料号 | DiN | Jis | AISI/SAE | AFNOR | Bş | EN | |
| P3 | 40CrMoA | 1,7223 | 41CriM04 | SCM440 | 4142 | 42CD4Ts | 708M40 | 41CrM04 |
| P3 | A4s2cMM. | 17225 | 42CrMo4 | SCM 440H | 4140 | 42CD4 | 708A42 | 42CrMo4 |
| P3 | 15CrMo | 1.7262 | 15 CrMo5 | SCM415H | 12CD4 | |||
| P3 | 12CrMo | 1,7335 | 13CriM044 | SFVAF 12 | A182-F11 | 15CD4.05 | 1501-621 | 13CrMo4-5 |
| P3 | 1.7361 | 32CrMo 12 | 30cD 12 | 722M24 | 32CrMo 12 | |||
| P4 | 55Si2Mn | 1,0904 | 55Si7 | SKH I: SKT 4 | 9255 | 55S7 | 250A53 | 55 NiCrMoV 7 |
| P4 | 1,2833 | 100V1 | SKS 43 | W210 | Y1105! | Bw? | 100V2 | |
| P4 | 12crNi2 | 1.5732 | 14 Nicr 10 | SNC415 H | 3415 | 14 Nc 12 | ||
| P4 | 12CrNi3 | 1,5752 | 14 NiCr 14 | SNC | 山山 | 16NC11 | 655 M13 | 13 Nicr 12 |
| P4 | 20CrNiM0 | 1,6523 | 21 NiCrMo? | SNCM 220 H | 8620 | 20NCD2 | 805 M20 | 20 NiCrMo |
| P4 | 1,6546 | 40 NiCrMo72 KB | SNCM240 | 8640 | 40NCD2 | 2KD 40 NiCrMo | ||
| P4 | 1:8523 | 39CrMoV 139 | 897M39 | 2KD 39 CrMoV | ||||
| P4 | 1.5710 | 36NiCr6 | SNC236 | 3135 | 35NC6 | 640A35 | 139 111A | |
| P6 | ZGMn13-1, ZGMn13-2 | 1,3401 | X 120 Mn 12 | SCMInH1 | A128 | Z120 M12 | BW 10 | |
| P6 | 1,2363 | X 100 CrMoV | SKD 1? | A-251 | 100CDV5 | BA | ||
| P6 | Cr12W | 1,2436 | X210 Crw 12 | SKD? | 210cw1? | X210Crw 12 | ||
| P6 | 5CrMnM0 | 1.2581 | X30 wCry 93 | SKD5 | H21 | Z30WCV9 | BH21 | X30 wCr! 93 |
| P6 | 4Cr5MoVSil; | 1,2344 | X 40CrMoV 5 1 | SKD61 | H13 | 40CDV5 | BH13 | X 40 CrMoV |
| P6 | 40CrMoV5 W18Cr4V | 13355 | S1-8-0-1 | SKH? | T1 | Z80WC! 18-04-01 | BT1 | 51 Hs 1-8-0-1 |
| P6 | W18Cr4VCo5 | 1.3255 | S1-8-1-2-5 | SKH3 | 14 | Z80WKCV | Bt 4 | (HS18-1-1-5) |
| P6 | W6M85cr4y | 1.3243 | S6-5-2-5 | SKH55 | M35 | 18-05-04-01 | BM35 | (HS6-5-2-5) |
| P6 | 1.5662 | ×8NL9 | SL9N53 | A353 | 9Ni | 509 | FeE 490 Ni 36 | |
| 工件材料 Workpiece Materials | 中国 | 徳国 | 日本 | 美国 | 法国 | 英国 | 欧洲 | |
| GB | 材料号 | DIN | Jis | AISI/SAE | AFNOR | Bş | EN | |
| P6 | Cr12Mo! | 1,2601 | X 165IGrMov | X 165SrMov | ||||
| P6 | Cr12 | 1,2080 | X210cr12 | SKD1 | D3 ASTM D3 | 7200C12 | BD3 | |
| P6 | 13343 | S6-5-2 | SUH3 | D3 | Z40cSD10 | 4959BA2 | ||
| P6 | M7 | 1,3348 | $2-9-2 | M7 | Z100DCWV 09-04-02-02 | Hs2-9-2 | ||
| M1 | 1,4408 | GX6 CrNiMO 1810 | SCS14 | CF-8M | GXSCrNiMO 19-11-2 | 316ç16 | GX 5 CrNiMO 19-11-2 | |
| M1 | OCr27Ni12 Mo3 | 1,4435 | X 2 CrNiTMlo 18143 | SCs16 | 316L | Z2CND17.13 | 316$11 | X2CrNiMo 1816 |
| M1 | 1Cr18Ni12 Mo2Ti | 1,4581 | Gx5CrNi MoNb 18 10 | SC$22 | Z4CNDNb 18.12M | 318c17 | GX5 CrNiMO Nb 19-11-2 | |
| M1 | 1,4828 | SUH309 | 309 | 309$24 | ||||
| M1 | 00Cr18Ni10N; OCr19Nig | 1,4311 | X2CrNiN 1810 | SUS304LN | 304 | Ž8CN18.12 | 304$62 | X2CrNiN 1810 |
| M1 | 2C25N2 | 14845 | メN | SÜs310$ | 310$ | Ž12CN25.20 | 310$24 | ×8CrNi2521 |
| M1 | OCr17Ni11Mo2, OCr17Ni12Mo2 | 1,4401 | X5 CrNiMo 17122 | SUs316 | 316 | Z6cND 17.11 | 316s16 | X6 CrNiMo 17×122KD |
| M1 | OCTMNi2 | 1.4436 | SUS316 | 316 | Z6cND 17.1? | 316$16 | ||
| M1 | 00Cr17Ni14 Mo?2 | 1,4404 | X2CrNiMo 17132 | SUS316L | 316L | Z3CND 19.10 M | 316$12 | GX 3 CrNiMo 17122KD |
| M1 | OCr17Ni13Mo, 00Cr17NI131Mo2N | 1,4429 | X2 CrNIiMoN 17133 | SUS316LN | 316LN | z2CND 17.13 Az | 316S62 | X3 CrNiMON 17133 |
| M1 | 1,4406 | X2 CrNIiMoN 17 | SUS316 LN122 | 316 | Z2CND 17.12Az | 316$61LN | X3 CrNiMoN 17122 | |
| M1 | Cr18Nil2 Mo2Ti | 1,4571 | X6 CrNiMoTi 17122 | SUS316 Ti | 316Ti | Z6CNDT 17.12 | 320$31 | X6 CrNiMoTi 17122 |
| M1 | 00Cr19Ni13 Mo3 | 1,4438 | X2CrNiMo 18164 | SUS317L | 317L | Z2CND 19.15 | 317s12 | X3 CrNiMo 18164 |
| M1 | 1Cr18NigTi | 1,4541 | X6 CrNiTi 1810 | SUS321 | 321 | Z6cNT 18.10 | 321$12 | X6 CrNiTi 18 |
| M1 | 1Cr18Ni10Ti; 1Cr18NigTi | 14878 | X 12 CrNiTi 189 | SUs321 | 321 | Z6cNT 18.12 | 321$20 | X 1O CrNiTi 1810 |
| M1 | CrI7NiI2Mo? | 1,4583 | 318 | |||||
| M1 | 1,4539 | X 1 NiCrMo CuN | Z1NCDU 25-20-5 | 904S132520 ×1NiCrMoCu | ||||
| M1 | 1,4003 | 405 | Z8CA12 | 405s17 | ||||
Reference table of workpiece materials 工件材料常用牌号対照表
| 工件材料 Workpiece Materials | 中国 | 徳国 | 日本 | 美国 | 法国 | 英国 | 欧洲 | |
| GB | 材料号 | DIN | Jis | AISI/SAE | AFNOR | Bş | EN | |
| M1 | 1.4521 | X1CrMoTi182 | S44400 | |||||
| M1 | 1,4542 | 630 | Z7CNU17-04 | |||||
| M1 | 00Cr19Ni13 Mo3 | 1,4438 | X2 CrNiMo 18164 | SUs317L | 317L | Z2cND 19.15 | 317s12 | X3CrNiMo 18164 |
| M1 | 1Cr18NigTi | 1,4541 | X 6 CrINiTi 1810 | SUs321 | 321 | Z6CNT 18.10 | 321$12 | X6 CrNiTi 18 |
| M1 | 1Cr18Ni10T: 1Cr18NigTi | 1,4878 | X 12 CrNiTi 189 | SUs321 | 321 | Z6cNT 18.12 | 321$20 | X 10 CrNiTi 1810 |
| M1 | 1Cr18Nil1Nb | 1,4550 | X6CrNiNb 1810 | SU$347 | 347 | Z6CNNb 18.10 | 347$17 | X6CrNiNb 1810 |
| M1 | 1Crl7 | 1,4016 | X6Cr17 | SU$ 430 | 430 | 430$17, | ||
| M1 | OCr15NiMO2AI | 1,4532 | X: GrYIMOA! | 15-7PH | X15D2 | 430S18 | X 8 CGENYIMOA! | |
| M1 | Cr17Nil2 Mo3Nb | 1,4583 | X 1O CrNiMONb 1812 | 318 | ||||
| M1 | 1,4539,52662 | X i NirMo | 904 | X 1 NiCrMoCu | ||||
| M1 | OCr17Ni4 Cu4Nb | 1,4542 | X5 CrNiCuNb 164 | SUS630 | 630 | Z6CNU17.04 | X5 CrNiCuNb 16-4 | |
| M2 | OCr17Ni7A! | 1,4568 | X7CrNiAl 17? | SUs631 | 301$81 | |||
| M2 | 1,4504 | |||||||
| M2 | 1,4504 | |||||||
| M2 | OCr17Ni7A! | 1.4568 | XT CrNiAI 177 | SUS631 | X7CrNiAll-7; Z9CNA17-07 | 301$81 | X T CrNiAI 17-7 | |
| M3 | OCr26NIi5Mo2 | 1,4460 | X4 CrNiMo 2752 | SUs329 J1 | 329 | X2 CrNiMo 25-7-3 | X3CrNiMo 2752 | |
| M3 | 1.4462 | X2CrNiMoN 2253 | SU$329]3L | $31803 | Z3CND 22.05 Az | 318$13 | X2 CrNiMoN 2253 | |
| K1 | HT300 | 06030 | GG- 30 | FC300 | A48-45B | FGL300 | Grade 300 | GJL-300 |
| K1 | HT350 | 0,6035 | GG- 35 | FC350 | A48-50B | FGL350 | Grade 350 | GJL-350 |
| K1 | HT400 | 0,6040 | GG- 40 | A48-55B | FGL400 | Grade 400 | GJL-400 | |
| K2 | 0,7033 | GGG-35.3 | GJS-350-22 | |||||
| K2 | 0T400-18 | 0,7040 | GGG-40 | FCD400 | 60-40-18 | Fc$ 400-12 | SNG 420/12 | |
| 工件材料 Workpiece Materials | 中国 | 德国 | 日本 | 美国 | 法国 | 英国 | 欧洲 | |
| GB | 材料号 | DIN | Jis | AISI/SAE | AFNOR | Bş | EN | |
| K2 | GGG-40.3 | FGS370-17 | SNG370/17 | |||||
| K2 | 0T500-7 | 0.7050 | GGG-50 | FCD500 | 80-55-06 | FGS 500-7 | SNIG 5OO/7 | |
| K2 | 0,7660 | GGG-NiCr202 | A43D2 | S-NC202 | Grade S6 | |||
| K2 | GGG-NiMo137 | L-MN 137 | L-NiMn 137 | |||||
| K2 | 0T600-3 | GGG-60 | FCD600 | FGS 600-3 | SNG 600/3 | |||
| K2 | 0T700-18 | 0.7070 | GGG-70 | FCD700 | 100-70-03 | FGs 700-2 | SNG 7002 | |
| K3 | 0.8145 | GTS-45-06 | FCMP440 | 40010 | P45-06 | P440/7 | MN 450 - 6 | |
| K3 | 0,8155 | GTS-55-04 | FCMP490 | 50005 | P55-04 | P510/4 | MN550-4 | |
| 3 | 0.8165 | GTS-65-02 | FCMP540 | 70003 | P65-02 | P570/3 | MN 650-3 | |
| K3 | FCMB310 | MN32-8 | 561/3 | |||||
| K3 | GTS-35 | FCMW330 | GTS-35 | MN35-10 | B340/12 | |||
| K3 | GTS-65 | FCMP540 | GTS-65 | MP60-3 | P570/3 | |||
| GTS-70-02 | FCMP690 | GTS-70-02 | MN 700-2 | P690/2 | ||||
| K3 | 0.8145 | GTS-45-06 | FCMP440 | 40010 | P45-06 | P440/7 | MN 450 -6 | |
| K3 | 0,8155 | GTS-55-04 | FCMP490 | 50005 | P55-04 | P510/4 | MN 550-4 | |
| K3 | 0.8165 | GTS-65-02 | FCMP540 | 70003 | P65-02 | P570/3 | MIN 650-3 | |
| 0,9620 | GX260 Nicr 42 | 0512-00 | A532iB NiCr-LC | GJH-X26ONi Cr4-2 | ||||
| 0,9625 | G-×330 Nicr 42 | 0513-00 | A532 iA NiCr-HC | FBNi4 Cr2 HC | GJH-X330NI Cr4-2 | |||
| 0,9630 | G-×300 CrNisi 95? | 0457-00 | A532iD Ni-HiCr | GJH-X300 Cr NiSi 9-5-2 | ||||
| 0,9635 | G-X300 CrMo 153 | A 532 liC15% CrMo-HC | GJH-X300 CrMo 15-3 | |||||
| 0,9640 | G-×300 CrMoNi 1521 | GJH-xX300 CrMoNi 15-2-1 | ||||||
| 0,9645 | CrMAX25021 | A 53!R2 | CrMON262-1 | |||||
| 0.9650 | GX260 Cr27 | 0466-00 | A532 1iA25% | GJH-X260 Cr27 | ||||
| 0,9655 | G-X300 CrMo27 1 | A532 1iA25% び | GJH-X300 CrMo 27-1 | |||||
夏門慧験珣疆科技有限公司XIAMEN H CARBIDE TECHNOLOGY Co..Ltd.
地址:中国福建省鳳I丁市翔安区翔安西路8003号
Add. No.8003 Xiang'an west Road, Xiang'an District, Xiamen City, Fujian Province
中活/Tel: 0592-6091331
i站/Web: www.hl-hitools.cn
南箱/E-mail! hl.xhlohlhitc.com




