{"id":17368,"date":"2020-04-26T03:33:44","date_gmt":"2020-04-26T03:33:44","guid":{"rendered":"https:\/\/www.meetyoucarbide.com\/?post_type=jetpack-portfolio&p=17368"},"modified":"2020-04-27T00:33:59","modified_gmt":"2020-04-27T00:33:59","slug":"carbide-rods-with-coolant-hole","status":"publish","type":"jetpack-portfolio","link":"https:\/\/www.meetyoucarbide.com\/de\/portfolio\/carbide-rods-with-coolant-hole\/","title":{"rendered":"Carbide Rod with Coolant Hole"},"content":{"rendered":"

\n\tCoolant Tungsten Carbide Rods with oil duct\n\t<\/h3>\n\t

Both carbide rod with straight coolant holes and helical coolant holes are supplied. Different grades are also available in stock. The internal cooling hole can provide much more efficient chip evacuation and deeper hole making capabilities. It is widely used in deep-hole drills and thread end mills.<\/p>\n\t\t\tCarbide Rod with One Central Coolant Hole\n\t\t

Type<\/b><\/td>D(mm)<\/b><\/td>d(mm)<\/b><\/td>Deviation of holes<\/b>position\u2264(mm)<\/b><\/td>L(mm)<\/b><\/td><\/tr>
D<\/b><\/td>Tol.<\/b><\/td>d<\/b><\/td>Tol.<\/b><\/td>L<\/b><\/td>T<\/b>ol.<\/b><\/td><\/tr>
OD4.0\u00d7ID1.0\u00d7330<\/td>4.0<\/td>+0.2\/+0.6<\/td>1.0<\/td>\u00b10.15<\/td>0.2<\/td>330<\/td>0\/+5<\/td><\/tr>
OD5.0\u00d7ID1.0\u00d7330<\/td>5.0<\/td>+0.2\/+0.6<\/td>1.0<\/td>\u00b10.15<\/td>0.2<\/td>330<\/td>0\/+5<\/td><\/tr>
OD5.0\u00d7ID1.5\u00d7330<\/td>5.0<\/td>+0.2\/+0.6<\/td>1.5<\/td>\u00b10.15<\/td>0.2<\/td>330<\/td>0\/+5<\/td><\/tr>
OD6.0\u00d7ID1.0\u00d7330<\/td>6.0<\/td>+0.2\/+0.6<\/td>1.0<\/td>\u00b10.15<\/td>0.2<\/td>330<\/td>0\/+5<\/td><\/tr>
OD6.0\u00d7ID1.5\u00d7330<\/td>6.0<\/td>+0.2\/+0.6<\/td>1.5<\/td>\u00b10.15<\/td>0.2<\/td>330<\/td>0\/+5<\/td><\/tr>
OD8.0\u00d7ID1.0\u00d7330<\/td>8.0<\/td>+0.2\/+0.6<\/td>1.0<\/td>\u00b10.15<\/td>0.25<\/td>330<\/td>0\/+5<\/td><\/tr>
OD8.0\u00d7ID1.5\u00d7330<\/td>8.0<\/td>+0.2\/+0.6<\/td>1.5<\/td>\u00b10.15<\/td>0.25<\/td>330<\/td>0\/+5<\/td><\/tr>
OD9.0\u00d7ID1.0\u00d7330<\/td>9.0<\/td>+0.3\/+0.7<\/td>1.0<\/td>\u00b10.15<\/td>0.25<\/td>330<\/td>0\/+5<\/td><\/tr>
OD10.0\u00d7ID1.0\u00d7330<\/td>10.0<\/td>+0.3\/+0.7<\/td>1.0<\/td>\u00b10.15<\/td>0.25<\/td>330<\/td>0\/+5<\/td><\/tr>
OD10.0\u00d7ID2.0\u00d7330<\/td>10.0<\/td>+0.3\/+0.7<\/td>2.0<\/td>\u00b10.2<\/td>0.25<\/td>330<\/td>0\/+5<\/td><\/tr>
OD11.0\u00d7ID1.0\u00d7330<\/td>11.0<\/td>+0.3\/+0.7<\/td>1.0<\/td>\u00b10.15<\/td>0.25<\/td>330<\/td>0\/+5<\/td><\/tr>
OD12.0\u00d7ID1.0\u00d7330<\/td>12.0<\/td>+0.3\/+0.7<\/td>1.0<\/td>\u00b10.15<\/td>0.25<\/td>330<\/td>0\/+5<\/td><\/tr>
OD12.0\u00d7ID2.0\u00d7330<\/td>12.0<\/td>+0.3\/+0.7<\/td>2.0<\/td>\u00b10.2<\/td>0.25<\/td>330<\/td>0\/+5<\/td><\/tr>
OD14.0\u00d7ID2.0\u00d7330<\/td>14.0<\/td>+0.3\/+0.7<\/td>2.0<\/td>\u00b10.2<\/td>0.25<\/td>330<\/td>0\/+5<\/td><\/tr>
OD16.0\u00d7ID2.0\u00d7330<\/td>16.0<\/td>+0.4\/+0.8<\/td>2.0<\/td>\u00b10.2<\/td>0.25<\/td>330<\/td>0\/+5<\/td><\/tr>
OD16.0\u00d7ID3.0\u00d7330<\/td>16.0<\/td>+0.4\/+0.8<\/td>3.0<\/td>\u00b10.25<\/td>0.25<\/td>330<\/td>0\/+5<\/td><\/tr>
OD18.0\u00d7ID3.0\u00d7330<\/td>18.0<\/td>+0.4\/+0.8<\/td>3.0<\/td>\u00b10.25<\/td>0.3<\/td>330<\/td>0\/+5<\/td><\/tr>
OD20.0\u00d7ID3.0\u00d7330<\/td>20.0<\/td>+0.4\/+0.8<\/td>3.0<\/td>\u00b10.25<\/td>0.3<\/td>330<\/td>0\/+5<\/td><\/tr><\/tbody><\/table>

20.0\u2264Dia\u226440.0 are available on request<\/p><\/blockquote>\n\t\t\tCarbide Rod with Two Straight Coolant Holes\n\t\t

Type<\/b><\/td>D(mm)<\/b><\/td>TK(mm)<\/b><\/td>d(mm)<\/b><\/td>Deviation of holes position\u2264(mm)<\/b><\/td>L(mm)<\/b><\/td><\/tr>
D<\/b><\/td>Tol.(mm)<\/b><\/td>TK<\/b><\/td>Tol.<\/b><\/td>d<\/b><\/td>Tol.(mm)<\/b><\/td>L<\/b><\/td>Tol.(mm<\/b>)<\/b><\/td><\/tr>
OD4.3\u00d72ID0.8\u00d71.8\u00d7330<\/td>4.3<\/td>0\/+0.6<\/td>1.8<\/td>-0.4\/0<\/td>0.8<\/td>\u00b10.10<\/td>0.15<\/td>330<\/td>0\/+10<\/td><\/tr>
OD5.3\u00d72ID0.8\u00d72.0\u00d7330<\/td>5.3<\/td>0\/+0.6<\/td>2.0<\/td>-0.4\/0<\/td>0.8<\/td>\u00b10.10<\/td>0.20<\/td>330<\/td>0\/+10<\/td><\/tr>
OD6.3\u00d72ID1.0\u00d73.0\u00d7330<\/td>6.3<\/td>0\/+0.6<\/td>3.0<\/td>-0.5\/0<\/td>1.0<\/td>\u00b10.15<\/td>0.20<\/td>330<\/td>0\/+10<\/td><\/tr>
OD7.3\u00d72ID1.0\u00d73.5\u00d7330<\/td>7.3<\/td>0\/+0.6<\/td>3.5<\/td>-0.5\/0<\/td>1.0<\/td>\u00b10.15<\/td>0.20<\/td>330<\/td>0\/+10<\/td><\/tr>
OD8.3\u00d72ID1.0\u00d74.0\u00d7330<\/td>8.3<\/td>0\/+0.6<\/td>4.0<\/td>-0.6\/0<\/td>1.0<\/td>\u00b10.15<\/td>0.20<\/td>330<\/td>0\/+10<\/td><\/tr>
OD9.3\u00d72ID1.4\u00d74.0\u00d7330<\/td>9.3<\/td>0\/+0.6<\/td>4.0<\/td>-0.6\/0<\/td>1.4<\/td>\u00b10.15<\/td>0.20<\/td>330<\/td>0\/+10<\/td><\/tr>
OD10.3\u00d72ID1.4\u00d75.0\u00d7330<\/td>10.3<\/td>0\/+0.6<\/td>5.0<\/td>-0.6\/0<\/td>1.4<\/td>\u00b10.15<\/td>0.20<\/td>330<\/td>0\/+10<\/td><\/tr>
OD11.3\u00d72ID1.4\u00d75.0\u00d7330<\/td>11.3<\/td>0\/+0.6<\/td>5.0<\/td>-0.6\/0<\/td>1.4<\/td>\u00b10.15<\/td>0.28<\/td>330<\/td>0\/+10<\/td><\/tr>
OD12.3\u00d72ID1.75\u00d76.0\u00d7330<\/td>12.3<\/td>0\/+0.6<\/td>6.0<\/td>-0.6\/0<\/td>1.75<\/td>\u00b10.15<\/td>0.30<\/td>330<\/td>0\/+10<\/td><\/tr>
OD13.3\u00d72ID1.75\u00d76.0\u00d7330<\/td>13.3<\/td>0\/+0.6<\/td>6.0<\/td>-0.6\/0<\/td>1.75<\/td>\u00b10.15<\/td>0.34<\/td>330<\/td>0\/+10<\/td><\/tr>
OD14.3\u00d72ID1.75\u00d77.0\u00d7330<\/td>14.3<\/td>0\/+0.6<\/td>7.0<\/td>-0.6\/0<\/td>1.75<\/td>\u00b10.15<\/td>0.37<\/td>330<\/td>0\/+10<\/td><\/tr>
OD15.3\u00d72ID2.0\u00d77.0\u00d7330<\/td>15.3<\/td>0\/+0.6<\/td>7.0<\/td>-0.6\/0<\/td>2.0<\/td>\u00b10.20<\/td>0.37<\/td>330<\/td>0\/+10<\/td><\/tr>
OD16.3\u00d72ID2.0\u00d78.0\u00d7330<\/td>16.3<\/td>0\/+0.6<\/td>8.0<\/td>-0.6\/0<\/td>2.0<\/td>\u00b10.20<\/td>0.40<\/td>330<\/td>0\/+10<\/td><\/tr>
OD17.3\u00d72ID2.0\u00d78.0\u00d7330<\/td>17.3<\/td>0\/+0.8<\/td>8.0<\/td>-0.6\/0<\/td>2.0<\/td>\u00b10.20<\/td>0.47<\/td>330<\/td>0\/+10<\/td><\/tr>
OD18.3\u00d72ID2.0\u00d79.0\u00d7330<\/td>18.3<\/td>0\/+0.8<\/td>9.0<\/td>-0.6\/0<\/td>2.0<\/td>\u00b10.20<\/td>0.50<\/td>330<\/td>0\/+10<\/td><\/tr>
OD19.3\u00d72ID2.0\u00d79.0\u00d7330<\/td>19.3<\/td>0\/+0.8<\/td>9.0<\/td>-0.6\/0<\/td>2.0<\/td>\u00b10.20<\/td>0.50<\/td>330<\/td>0\/+10<\/td><\/tr>
OD20.3\u00d72ID2.5\u00d710.0\u00d7330<\/td>20.3<\/td>0\/+0.8<\/td>10.0<\/td>-0.8\/0<\/td>2.5<\/td>\u00b10.25<\/td>0.50<\/td>330<\/td>0\/+10<\/td><\/tr><\/tbody><\/table>20.0\u2264Dia\u226440.0 are available on request<\/blockquote>\n\t\t\tCarbide Rod with Two Helical Coolant Holes 30\u00b0Helical\n\t\t
Type<\/b><\/td>D(mm)<\/b><\/td>d(mm)<\/b><\/td>Tk<\/b><\/td>a<\/b><\/td>Pitch<\/b><\/td><\/tr>
D<\/b><\/td>Tolerance<\/b><\/td>d<\/b><\/td>Tolerance<\/b><\/td>TK<\/b><\/td>Tolerance<\/b><\/td>P1<\/b><\/td>P2<\/b><\/td>P3<\/b><\/td>Tolerance<\/b><\/td><\/tr>
OD3.3\u00d72ID0.4\u00d71.7\u00d7330<\/td>3.3<\/td>2.33<\/td>0.4<\/td>\u00b10.10<\/td>1.7<\/td>0\/-0.3<\/td>\u22640.08<\/td>15.89<\/td>16.32<\/td>16.77<\/td>\u00b10.23<\/td><\/tr>
OD4.3\u00d72ID0.6\u00d72.2\u00d7330<\/td>4.3<\/td>2.33<\/td>0.6<\/td>\u00b10.15<\/td>2.2<\/td>0\/-0.3<\/td>\u22640.10<\/td>21.19<\/td>21.77<\/td>22.36<\/td>\u00b10.31<\/td><\/tr>
OD5.3\u00d72ID0.7\u00d72.6\u00d7330<\/td>5.3<\/td>2.67<\/td>0.7<\/td>\u00b10.15<\/td>2.6<\/td>0\/-0.4<\/td>\u22640.13<\/td>26.49<\/td>27.21<\/td>27.95<\/td>\u00b10.38<\/td><\/tr>
OD6.3\u00d72ID0.7\u00d72.6\u00d7330<\/td>6.3<\/td>2.5<\/td>0.7<\/td>\u00b10.15<\/td>2.6<\/td>0\/-0.4<\/td>\u22640.15<\/td>31.79<\/td>32.65<\/td>33.54<\/td>\u00b10.46<\/td><\/tr>
OD6.3\u00d72ID1.0\u00d72.6\u00d7330<\/td>6.3<\/td>2.5<\/td>1.0<\/td>\u00b10.15<\/td>2.6<\/td>0\/-0.4<\/td>\u22640.15<\/td>31.79<\/td>32.65<\/td>33.54<\/td>\u00b10.46<\/td><\/tr>
OD7.3\u00d72ID1.0\u00d73.7\u00d7330<\/td>7.3<\/td>2.5<\/td>1.0<\/td>\u00b10.15<\/td>3.7<\/td>0\/-0.4<\/td>\u22640.15<\/td>37.09<\/td>38.09<\/td>39.13<\/td>\u00b10.54<\/td><\/tr>
OD8.3\u00d72ID1.0\u00d74.0\u00d7330<\/td>8.3<\/td>2.5<\/td>1.0<\/td>\u00b10.15<\/td>4.0<\/td>0\/-0.4<\/td>\u22640.15<\/td>42.38<\/td>43.53<\/td>44.73<\/td>\u00b10.62<\/td><\/tr>
OD8.3\u00d72ID1.0\u00d73.5\u00d7330<\/td>8.3<\/td>2.5<\/td>1.0<\/td>\u00b10.15<\/td>3.5<\/td>0\/-0.4<\/td>\u22640.15<\/td>42.38<\/td>43.53<\/td>44.73<\/td>\u00b10.62<\/td><\/tr>
OD8.3\u00d72ID0.6\u00d72.8\u00d7330<\/td>8.3<\/td>2.5<\/td>0.6<\/td>\u00b10.15<\/td>2.8<\/td>0\/-0.4<\/td>\u22640.15<\/td>42.38<\/td>43.53<\/td>44.73<\/td>\u00b10.62<\/td><\/tr>
OD9.3\u00d72ID1.4\u00d74.8\u00d7330<\/td>9.3<\/td>2.5<\/td>1.4<\/td>\u00b10.15<\/td>4.8<\/td>0\/-0.6<\/td>\u22640.20<\/td>47.68<\/td>48.97<\/td>50.32<\/td>\u00b10.69<\/td><\/tr>
OD10.3\u00d72ID1.4\u00d74.8\u00d7330<\/td>10.3<\/td>2.75<\/td>1.4<\/td>\u00b10.15<\/td>4.8<\/td>0\/-0.6<\/td>\u22640.20<\/td>52.98<\/td>54.41<\/td>55.91<\/td>\u00b10.77<\/td><\/tr>
OD10.3\u00d72ID0.7\u00d72.6\u00d7330<\/td>10.3<\/td>2.75<\/td>0.7<\/td>\u00b10.15<\/td>2.6<\/td>0\/-0.4<\/td>\u22640.20<\/td>52.98<\/td>54.41<\/td>55.91<\/td>\u00b10.77<\/td><\/tr>
OD10.3\u00d72ID1.0\u00d73.0\u00d7330<\/td>10.3<\/td>2.75<\/td>1.0<\/td>\u00b10.15<\/td>3.0<\/td>0\/-0.4<\/td>\u22640.20<\/td>52.98<\/td>54.41<\/td>55.91<\/td>\u00b10.77<\/td><\/tr>
OD10.3\u00d72ID1.4\u00d75.0\u00d7330<\/td>10.3<\/td>2.75<\/td>1.4<\/td>\u00b10.15<\/td>5.0<\/td>0\/-0.6<\/td>\u22640.20<\/td>52.98<\/td>54.41<\/td>55.91<\/td>\u00b10.77<\/td><\/tr>
OD11.3\u00d72ID1.4\u00d75.3\u00d7330<\/td>11.3<\/td>2.75<\/td>1.4<\/td>\u00b10.15<\/td>5.3<\/td>0\/-0.8<\/td>\u22640.28<\/td>58.28<\/td>59.86<\/td>61.5<\/td>\u00b10.85<\/td><\/tr>
OD12.3\u00d72ID1.4\u00d76.25\u00d7330<\/td>12.3<\/td>2.75<\/td>1.4<\/td>\u00b10.15<\/td>6.25<\/td>0\/-0.8<\/td>\u22640.30<\/td>63.58<\/td>65.3<\/td>67.09<\/td>\u00b10.92<\/td><\/tr>
OD12.3\u00d72ID1.75\u00d76.0\u00d7330<\/td>12.3<\/td>2.75<\/td>1.75<\/td>\u00b10.20<\/td>6.0<\/td>0\/-0.8<\/td>\u22640.30<\/td>63.58<\/td>65.3<\/td>67.09<\/td>\u00b10.92<\/td><\/tr>
OD13.3\u00d72ID1.75\u00d76.5\u00d7330<\/td>13.3<\/td>3.0<\/td>1.75<\/td>\u00b10.20<\/td>6.5<\/td>0\/-0.8<\/td>\u22640.34<\/td>68.87<\/td>70.74<\/td>72.68<\/td>\u00b11.00<\/td><\/tr>
OD14.3\u00d72ID1.75\u00d77.1\u00d7330<\/td>14.3<\/td>3.5<\/td>1.75<\/td>\u00b10.20<\/td>7.1<\/td>0\/-0.8<\/td>\u22640.37<\/td>74.17<\/td>76.18<\/td>78.27<\/td>\u00b11.08<\/td><\/tr>
OD14.3\u00d72ID0.8\u00d73.5\u00d7330<\/td>14.3<\/td>3.5<\/td>0.8<\/td>\u00b10.15<\/td>3.5<\/td>0\/-0.4<\/td>\u22640.37<\/td>74.17<\/td>76.18<\/td>78.27<\/td>\u00b11.08<\/td><\/tr>
OD14.3\u00d72ID1.4\u00d74.5\u00d7330<\/td>14.3<\/td>3.5<\/td>1.4<\/td>\u00b10.15<\/td>4.5<\/td>0\/-0.6<\/td>\u22640.37<\/td>74.17<\/td>76.18<\/td>78.27<\/td>\u00b11.08<\/td><\/tr>
OD15.3\u00d72ID1.75\u00d77.7\u00d7330<\/td>15.3<\/td>3.5<\/td>1.75<\/td>\u00b10.20<\/td>7.7<\/td>0\/-0.8<\/td>\u22640.40<\/td>79.47<\/td>81.62<\/td>83.86<\/td>\u00b11.15<\/td><\/tr>
OD16.3\u00d72ID1.75\u00d78.3\u00d7330<\/td>16.3<\/td>3.5<\/td>1.75<\/td>\u00b10.20<\/td>8.3<\/td>0\/-0.8<\/td>\u22640.40<\/td>84.77<\/td>87.06<\/td>89.45<\/td>\u00b11.23<\/td><\/tr>
OD16.3\u00d72ID2.0\u00d78.0\u00d7330<\/td>16.3<\/td>3.5<\/td>2.0<\/td>\u00b10.20<\/td>8.0<\/td>0\/-0.6<\/td>\u22640.40<\/td>84.77<\/td>87.06<\/td>89.45<\/td>\u00b11.23<\/td><\/tr>
OD17.3\u00d72ID1.75\u00d78.9\u00d7330<\/td>17.3<\/td>3.5<\/td>1.75<\/td>\u00b10.20<\/td>8.9<\/td>0\/-0.8<\/td>\u22640.47<\/td>90.07<\/td>92.5<\/td>95.04<\/td>\u00b11.31<\/td><\/tr>
OD18.3\u00d72ID2.0\u00d79.55\u00d7330<\/td>18.3<\/td>3.5<\/td>2.0<\/td>\u00b10.25<\/td>9.55<\/td>0\/-0.8<\/td>\u22640.50<\/td>95.36<\/td>97.95<\/td>100.63<\/td>\u00b11.38<\/td><\/tr>
OD18.3\u00d72ID1.75\u00d79.15\u00d7330<\/td>18.3<\/td>3.5<\/td>1.75<\/td>\u00b10.20<\/td>9.15<\/td>0\/-0.8<\/td>\u22640.50<\/td>95.36<\/td>97.95<\/td>100.63<\/td>\u00b11.38<\/td><\/tr>
OD19.3\u00d72ID2.0\u00d710\u00d7330<\/td>19.3<\/td>3.5<\/td>2.0<\/td>\u00b10.25<\/td>10.0<\/td>0\/-0.8<\/td>\u22640.50<\/td>100.66<\/td>103.39<\/td>106.22<\/td>\u00b11.46<\/td><\/tr>
OD20.3\u00d72ID2.0\u00d710.4\u00d7330<\/td>20.3<\/td>3.5<\/td>2.0<\/td>\u00b10.25<\/td>10.4<\/td>0\/-1<\/td>\u22640.50<\/td>105.96<\/td>108.83<\/td>111.81<\/td>\u00b11.54<\/td><\/tr><\/tbody><\/table>

Note<\/sup>\uff1a D<18.3, L>100, L Tolerance0~+7; L<100, L Tolerance0~+5.\u00a0 D \u2265 18.3, L Tolerance+3~+10.<\/sup><\/p><\/blockquote>\n\t\t\tCarbide Rod with Two Helical Coolant Holes 40\u00b0Helical\n\t\t

Type<\/b><\/td>D(mm)<\/b><\/td>d(mm)<\/b><\/td>TK(mm)<\/b><\/td>a<\/b><\/td>Ptich<\/b><\/td><\/tr>
D<\/b><\/td>Tol.<\/b><\/td>d<\/b><\/td>Tol.<\/b><\/td>TK<\/b><\/td>Tol.<\/b><\/td>P 1<\/b><\/td>P 2<\/b><\/td>P 3<\/b><\/td>Tol.<\/b><\/td><\/tr>
OD6.3\u00d72ID0.6\u00d71.9\u00d7LC<\/td>6.3<\/td>2.5<\/td>0.6<\/td>\u00b10.15<\/td>1.9<\/td>0\/-0.4<\/td>\u22640.15<\/td>18.20<\/td>18.85<\/td>19.52<\/td>\u00b10.34<\/td><\/tr>
OD6.3\u00d72ID0.5\u00d72.2\u00d7LC<\/td>6.3<\/td>2.5<\/td>0.5<\/td>\u00b10.15<\/td>2.2<\/td>0\/-0.4<\/td>\u22640.15<\/td>21.68<\/td>22.46<\/td>23.28<\/td>\u00b10.42<\/td><\/tr>
OD8.3\u00d72ID0.65\u00d72.7\u00d7LC<\/td>8.3<\/td>2.5<\/td>0.65<\/td>\u00b10.15<\/td>2.7<\/td>0\/-0.6<\/td>\u22640.15<\/td>28.91<\/td>29.95<\/td>31.04<\/td>\u00b10.56<\/td><\/tr>
OD10.3\u00d72ID0.8\u00d73.5\u00d7LC<\/td>10.3<\/td>2.75<\/td>0.8<\/td>\u00b10.15<\/td>3.5<\/td>0\/-0.8<\/td>\u22640.20<\/td>36.14<\/td>37.44<\/td>38.8<\/td>\u00b10.70<\/td><\/tr>
OD12.3\u00d72ID0.9\u00d74.2\u00d7LC<\/td>12.3<\/td>2.75<\/td>0.9<\/td>\u00b10.15<\/td>4.2<\/td>0\/-0.8<\/td>\u22640.30<\/td>43.37<\/td>44.93<\/td>46.55<\/td>\u00b10.84<\/td><\/tr>
OD14.3\u00d72ID1.0\u00d74.7\u00d7LC<\/td>14.3<\/td>3.5<\/td>1.0<\/td>\u00b10.20<\/td>4.7<\/td>0\/-0.8<\/td>\u22640.37<\/td>50.6<\/td>52.42<\/td>54.31<\/td>\u00b10.98<\/td><\/tr>
OD16.3\u00d72ID1.2\u00d75.5\u00d7LC<\/td>16.3<\/td>3.5<\/td>1.2<\/td>\u00b10.20<\/td>5.5<\/td>0\/-0.8<\/td>\u22640.40<\/td>57.82<\/td>59.9<\/td>62.07<\/td>\u00b11.12<\/td><\/tr>
OD18.3\u00d72ID1.4\u00d76.3\u00d7LC<\/td>18.3<\/td>3.5<\/td>1.4<\/td>\u00b10.20<\/td>6.3<\/td>0\/-0.8<\/td>\u22640.50<\/td>65.05<\/td>67.39<\/td>69.83<\/td>\u00b11.26<\/td><\/tr>
OD20.3\u00d72ID1.5\u00d77.1\u00d7LC<\/td>20.3<\/td>3.5<\/td>1.5<\/td>\u00b10.20<\/td>7.1<\/td>0\/-1.0<\/td>\u22640.50<\/td>72.28<\/td>74.88<\/td>77.59<\/td>\u00b11.40<\/td><\/tr><\/tbody><\/table>Note: D<18.3, L>100, L Tolerance0~+7, L<100, L Tolerance0~+5, D\u226518.3, Length Tolerance+3~+10<\/blockquote>\n\t\t\tCarbide Rod with Three Helical Coolant Holes 30\u00b0 Helical\n\t\t
Type<\/b><\/td>D(mm)<\/b><\/td>d(mm)<\/b><\/td>TK<\/b><\/td>a<\/b><\/td>Pitch<\/b><\/td><\/tr>
D<\/b><\/td>Tol.<\/b><\/td>d<\/b><\/td>Tol.<\/b><\/td>TK<\/b><\/td>Tol.<\/b><\/td>P 1<\/b><\/td>P 2<\/b><\/td>P 3<\/b><\/td>Tol.<\/b><\/td><\/tr>
OD6.3\u00d73ID0.5\u00d72.9\u00d7LB<\/td>6.3<\/td>2.5<\/td>0.5<\/td>\u00b10.15<\/td>2.9<\/td>0\/-0.4<\/td>\u22640.15<\/td>31.79<\/td>32.65<\/td>33.54<\/td>\u00b10.46<\/td><\/tr>
OD8.3\u00d73ID0.7\u00d74.0\u00d7LB<\/td>8.3<\/td>2.5<\/td>0.7<\/td>\u00b10.15<\/td>4<\/td>0\/-0.4<\/td>\u22640.15<\/td>42.38<\/td>43.53<\/td>44.73<\/td>\u00b10.62<\/td><\/tr>
OD9.3\u00d73ID0.7\u00d74.0\u00d7LB<\/td>9.3<\/td>2.5<\/td>0.85<\/td>\u00b10.15<\/td>5.1<\/td>0\/-0.5<\/td>\u22640.20<\/td>47.68<\/td>48.97<\/td>50.32<\/td>\u00b10.69<\/td><\/tr>
OD10.3\u00d73ID0.85\u00d75.1\u00d7LB<\/td>10.3<\/td>2.75<\/td>0.85<\/td>\u00b10.15<\/td>5.1<\/td>0\/-0.4<\/td>\u22640.20<\/td>52.98<\/td>54.41<\/td>55.91<\/td>\u00b10.77<\/td><\/tr>
B\u042412.3\u00d73\u04241.1\u00d76.3\u00d7LB<\/td>12.3<\/td>2.75<\/td>1.1<\/td>\u00b10.15<\/td>6.3<\/td>0\/-0.6<\/td>\u22640.30<\/td>63.58<\/td>65.3<\/td>67.09<\/td>\u00b10.92<\/td><\/tr>
OD14.3\u00d73ID1.4\u00d77.3\u00d7LB<\/td>14.3<\/td>3.5<\/td>1.4<\/td>\u00b10.20<\/td>7.3<\/td>0\/-0.8<\/td>\u22640.40<\/td>74.17<\/td>76.18<\/td>78.27<\/td>\u00b11.08<\/td><\/tr>
OD15.3\u00d73ID1.4\u00d77.3\u00d7LB<\/td>15.3<\/td>3.5<\/td>1.4<\/td>\u00b10.20<\/td>7.8<\/td>0\/-0.8<\/td>\u22640.40<\/td>79.47<\/td>81.62<\/td>83.86<\/td>\u00b11.15<\/td><\/tr>
OD16.3\u00d73ID1.6\u00d78.3\u00d7LB<\/td>16.3<\/td>3.5<\/td>1.6<\/td>\u00b10.20<\/td>8.3<\/td>0\/-0.8<\/td>\u22640.40<\/td>84.77<\/td>87.06<\/td>89.45<\/td>\u00b11.23<\/td><\/tr>
OD18.3\u00d73ID1.7\u00d79.5\u00d7LB<\/td>18.3<\/td>3.5<\/td>1.7<\/td>\u00b10.20<\/td>9.5<\/td>0\/-0.8<\/td>\u22640.50<\/td>95.36<\/td>97.95<\/td>100.63<\/td>\u00b11.38<\/td><\/tr>
OD20.3\u00d73ID1.9\u00d710.2\u00d7LB<\/td>20.3<\/td>3.5<\/td>1.9<\/td>\u00b10.25<\/td>10.2<\/td>0\/-0.8<\/td>\u22640.50<\/td>105.96<\/td>108.83<\/td>111.81<\/td>\u00b11.54<\/td><\/tr><\/tbody><\/table>Note: D<18.3, L>100, L Tolerance0~+7; L<100, L Tolerance0~+5. D\u226518.3, L Tolerance+3~+10.<\/blockquote>\n\t\t\tCarbide Rod with Three Helical Coolant Holes 40\u00b0Helical\n\t\t

Type<\/b><\/td>

D(mm)<\/b><\/td>d(mm)<\/b><\/td>Tk<\/b><\/td>a<\/b><\/td>Pitch<\/b><\/td><\/tr>
D<\/b><\/td>Tol.<\/b><\/td>d<\/b><\/td>Tolerance<\/b><\/td>TK<\/b><\/td>Tol.<\/b><\/td>P1<\/b><\/td>P2<\/b><\/td>P3<\/b><\/td>Tol.<\/b><\/td><\/tr>
OD6.3\u00d73ID0.5\u00d72.9\u00d7LB<\/td>6.3<\/td>2.5<\/td>0.5<\/td>\u00b10.15<\/td>2.2<\/td>0\/-0.4<\/td>\u22640.15<\/td>21.68<\/td>22.46<\/td>23.28<\/td>\u00b10.42<\/td><\/tr>
OD8.3\u00d73ID0.7\u00d74.0\u00d7LB<\/td>8.3<\/td>2.5<\/td>0.65<\/td>\u00b10.15<\/td>2.7<\/td>0\/-0.4<\/td>\u22640.15<\/td>28.91<\/td>29.95<\/td>31.04<\/td>\u00b10.56<\/td><\/tr>
OD10.3\u00d73ID0.85\u00d75.1\u00d7LB<\/td>10.3<\/td>2.75<\/td>0.8<\/td>\u00b10.15<\/td>3.5<\/td>0\/-0.4<\/td>\u22640.20<\/td>36.14<\/td>37.44<\/td>38.8<\/td>\u00b10.70<\/td><\/tr>
B\u042412.3\u00d73\u04241.1\u00d76.3\u00d7LB<\/td>12.3<\/td>2.75<\/td>0.9<\/td>\u00b10.15<\/td>4.2<\/td>0\/-0.6<\/td>\u22640.30<\/td>43.37<\/td>44.93<\/td>46.55<\/td>\u00b10.84<\/td><\/tr>
OD14.3\u00d73ID1.4\u00d77.3\u00d7LB<\/td>14.3<\/td>3.5<\/td>1.0<\/td>\u00b10.20<\/td>4.7<\/td>0\/-0.6<\/td>\u22640.37<\/td>50.60<\/td>52.42<\/td>54.31<\/td>\u00b10.98<\/td><\/tr>
OD16.3\u00d73ID1.6\u00d78.3\u00d7LB<\/td>16.3<\/td>3.5<\/td>1.2<\/td>\u00b10.20<\/td>5.5<\/td>0\/-0.8<\/td>\u22640.40<\/td>57.82<\/td>59.90<\/td>62.07<\/td>\u00b11.12<\/td><\/tr>
OD18.3\u00d73ID1.7\u00d79.5\u00d7LB<\/td>18.3<\/td>3.5<\/td>1.4<\/td>\u00b10.20<\/td>6.3<\/td>0\/-0.8<\/td>\u22640.50<\/td>65.05<\/td>67.39<\/td>69.83<\/td>\u00b11.26<\/td><\/tr>
OD20.3\u00d73ID1.9\u00d710.2\u00d7LB<\/td>20.3<\/td>3.5<\/td>1.5<\/td>\u00b10.20<\/td>7.1<\/td>0\/-0.8<\/td>\u22640.50<\/td>72.28<\/td>74.88<\/td>77.59<\/td>\u00b11.40<\/p><\/td><\/tr><\/tbody><\/table>Note:\u00a0 D<18.3, L>100, L Tolerance0~+7, L<100, L Tolerance0~+5, D\u226518.3, Length Tolerance+3~+10<\/blockquote>\n

\n\tSintering
HIP.<\/strong>\n\t<\/h2>\n\t

The advanced computer-controlled HIP furnaces are applied to provide more pressure during the sintering process in order to get denser structure.<\/p>\n

\n\tPowder
Excellent.<\/strong>\n\t<\/h2>\n\t

Thanks to our deep cooperation with Germany H.C.Starck, we use the best powder for carbide rod in the world for all our standard grades for carbide rod manufacturing.<\/p>\n

\n\tCooling
Internal.<\/strong>\n\t<\/h2>\n\t

The internal cooling hole can provide much more efficient chip evacuation and deeper hole making capabilities. We supply not only straight coolant but also spiral coolant carbide rod.<\/p>\n

\n\tOEM Custom Service<\/b>\n\t<\/h2>\n\t

We can develop grades as per your requirement and make the same shape as your drawing. Laser marking and neutral package are also available for your benefits.<\/p>\n

\n\tGrade\n\t<\/h3>\n\t\t\tGrade Chart\n\t\t
grade<\/td>\u00a0<\/td>MT09U<\/td>MT10S<\/td>MT12S<\/td>MT25S<\/td>MT06U<\/td>MT20.8<\/td><\/tr>
ISO range<\/td>\u00a0<\/td>K10-K20<\/td>K20-K40<\/td>K20-K40<\/td>K20-K40<\/td>K05-K10<\/td>K40-K50<\/td><\/tr>
WC+other carbide<\/td>%<\/td>91<\/td>90<\/td>88<\/td>88<\/td>93.5<\/td>85<\/td><\/tr>
Co<\/td>%<\/td>9<\/td>10<\/td>12<\/td>12<\/td>6.5<\/td>15<\/td><\/tr>
WC grain size<\/td>\u03bcm<\/td>0.4<\/td>0.8<\/td>0.6<\/td>0.4<\/td>0.6<\/td>0.8<\/td><\/tr>
density<\/td>g\/\u339d\u00b3<\/td>14.5<\/td>14.42<\/td>14.12<\/td>14.1<\/td>14.85<\/td>13.95<\/td><\/tr>
hardness<\/td>Hv30<\/td>1890<\/td>1600<\/td>1580<\/td>1750<\/td>1890<\/td>1350<\/td><\/tr>
HRA<\/td>\u00a0<\/td>93.5<\/td>91.5<\/td>91.2<\/td>92.5<\/td>93.5<\/td>89.5<\/td><\/tr>
transverse rupture strength<\/td>N\/mm\u00b2<\/td>3800<\/td>4100<\/td>4200<\/td>4400<\/td>3700<\/td>3800<\/td><\/tr>
kpsi<\/td>\u00a0<\/td>590<\/td>609<\/td>638<\/td>540<\/td>551<\/td>551<\/td><\/tr>
fracture toughness<\/td>Mpa.m\u00bd<\/td>10.2<\/td>14.2<\/td>14.7<\/td>13.5<\/td>10.1<\/td>17.5<\/td><\/tr>
young\u2019s modulus<\/td>kpsi<\/td>86780<\/td>85360<\/td>80860<\/td>80000<\/td>91000<\/td>79086<\/td><\/tr>
compressive strength<\/td>kpsi<\/td>1145<\/td>1015<\/td>1010<\/td>1109<\/td>1156<\/td>957<\/td><\/tr><\/tbody><\/table>\n\t\t\tThe Application\n\t\t
Grade<\/td>Properties and applications<\/td><\/tr>
MT09U\u00a0<\/td>Ultra-fine grain WC with 9%Co Very high wear resistance and excellent deformation resistance High cutting speed milling, finishing For use on hardened steel, plastics, fibre reinforced materials, HRC55-65<\/td><\/tr>
MT10S\u00a0<\/td>Ultra-fine grain WC with 10%Co\u00a0 Very high wear resistance and excellent deformation resistance High cutting speed milling&drilling For general usage and suitable for all kinds of material belowHRC45<\/td><\/tr>
MT12S\u00a0<\/td>Submicron grain WC with 12%Co High toughness and wear resistance Specially designed for machining stainless steel For use on stainless steel, nickel-based alloys, titanium alloy and special alloy<\/td><\/tr>
MT25S\u00a0<\/td>Ultra-fine grain WC with 12%Co Very high toughness and high wear resistance Suitable for finishing processing and roughing of steels with hardness between 45 and 55HRC steels for surface treatments, nickel and nickel alloys<\/td><\/tr>
MT06U\u00a0<\/td>Submicron grain WC with 6% Co Very high wear resistance High cutting speed For drilling and milling of plastic composites, PCB, ceramics, woods and MDF<\/td><\/tr>
MT20.8\u00a0<\/td>Submicron grain WC with 15%Co High strength and toughness High-speed punching For use on solid carbide punches<\/td><\/tr><\/tbody><\/table>\n<\/div>","protected":false},"excerpt":{"rendered":"

Coolant Tungsten Carbide Rods with oil duct Both carbide rod with straight coolant holes and helical coolant holes are supplied. Different grades are also available in stock. The internal cooling hole can provide much more efficient chip evacuation and deeper hole making capabilities. It is widely used in deep-hole drills and thread end mills. Carbide…<\/p>\n","protected":false},"author":1,"featured_media":17369,"comment_status":"closed","ping_status":"closed","template":"","format":"standard","meta":[],"jetpack-portfolio-type":[74],"jetpack-portfolio-tag":[],"jetpack_sharing_enabled":true,"_links":{"self":[{"href":"https:\/\/www.meetyoucarbide.com\/de\/wp-json\/wp\/v2\/jetpack-portfolio\/17368"}],"collection":[{"href":"https:\/\/www.meetyoucarbide.com\/de\/wp-json\/wp\/v2\/jetpack-portfolio"}],"about":[{"href":"https:\/\/www.meetyoucarbide.com\/de\/wp-json\/wp\/v2\/types\/jetpack-portfolio"}],"author":[{"embeddable":true,"href":"https:\/\/www.meetyoucarbide.com\/de\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.meetyoucarbide.com\/de\/wp-json\/wp\/v2\/comments?post=17368"}],"version-history":[{"count":0,"href":"https:\/\/www.meetyoucarbide.com\/de\/wp-json\/wp\/v2\/jetpack-portfolio\/17368\/revisions"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/www.meetyoucarbide.com\/de\/wp-json\/wp\/v2\/media\/17369"}],"wp:attachment":[{"href":"https:\/\/www.meetyoucarbide.com\/de\/wp-json\/wp\/v2\/media?parent=17368"}],"wp:term":[{"taxonomy":"jetpack-portfolio-type","embeddable":true,"href":"https:\/\/www.meetyoucarbide.com\/de\/wp-json\/wp\/v2\/jetpack-portfolio-type?post=17368"},{"taxonomy":"jetpack-portfolio-tag","embeddable":true,"href":"https:\/\/www.meetyoucarbide.com\/de\/wp-json\/wp\/v2\/jetpack-portfolio-tag?post=17368"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}