465.F00.C
Carrying Cases for Steep Taper Dual Contact Arbors
TAC Rockford runout arbor cases are specifically designed to protect your precision spindle runout test arbors. These cases feature high-density, custom-cut foam interiors that secure the arbors. They ensure your critical measurement tools are shielded from dirt, damage, and impact, maintaining their accuracy and readiness for preventative maintenance.
| Part Number | ||||||||
|---|---|---|---|---|---|---|---|---|
| Steep Taper 30 (BT) Dual Contact | 465.F30.025.125 | Compact | 499.212.113148 | |||||
| Steep Taper 30 (BT) Dual Contact | 465.F30.000.000 | Aluminum Horizontal | 499.215.113090 | |||||
| Steep Taper 40 (BT) Dual Contact | 465.F40.000.000 | Aluminum Horizontal | 499.215.113086 | |||||
| Steep Taper 40 (CAT/ANSI) Dual Contact | 465.G40.000.000 | Aluminum Horizontal | 499.215.113087 | |||||
| Steep Taper 50 (BT) Dual Contact | 465.F50.000.000 | Aluminum Horizontal | 499.215.113085 | |||||
| Steep Taper 50 (CAT/ANSI and DIN) Dual Contact | 465.G50.000.000 and 465.G50.000.000 | Aluminum Horizontal | 499.215.113084 |
For more information regarding this item (Carrying Cases for Steep Taper Dual Contact Arbors) or other items, fill out the form below
or contact our office directly:
Telephone: 815-962-5600
Fax: 815-962-4600
Location: 304 North Main St, Suite 104, Rockford, IL 61101-1101 USA
Email: infο@ΤΑCRοckfοrd.cοm
Related
Steep Taper Dual Contact Runout Test Arbors
Compatible with Big-Plus® steep taper spindles.
Carrying Cases for Steep Taper Runout Arbors
TAC Rockford runout arbor cases are specifically designed to protect your precision spindle runout test arbors. These cases feature high-density, custom-cut foam interiors that secure the arbors. They ensure your critical measurement tools are shielded from dirt, damage, and impact, maintaining their accuracy and readiness for preventative maintenance.
BT-DC Steep Taper Tool Holder Blanks
40 and 50 steep taper BT Dual Contact blanks are available from TAC Rockford.
Steep Taper Precision Ball-End Runout Test Arbors
Our 467 precision version feature an adjustment mechanism which allows for improved accuracy when compared to our standard 466 ball arbors.
Carrying Cases for KM Runout Arbors
TAC Rockford runout arbor cases are specifically designed to protect your precision spindle runout test arbors. These cases feature high-density, custom-cut foam interiors that secure the arbors. They ensure your critical measurement tools are shielded from dirt, damage, and impact, maintaining their accuracy and readiness for preventative maintenance.
Carrying Cases for Morse Runout Arbors
TAC Rockford runout arbor cases are specifically designed to protect your precision spindle runout test arbors. These cases feature high-density, custom-cut foam interiors that secure the arbors. They ensure your critical measurement tools are shielded from dirt, damage, and impact, maintaining their accuracy and readiness for preventative maintenance.
Carrying Cases for HSK Runout Arbors
TAC Rockford runout arbor cases are specifically designed to protect your precision spindle runout test arbors. These cases feature high-density, custom-cut foam interiors that secure the arbors. They ensure your critical measurement tools are shielded from dirt, damage, and impact, maintaining their accuracy and readiness for preventative maintenance.
Carrying Cases for PSC Runout Arbors
TAC Rockford runout arbor cases are specifically designed to protect your precision spindle runout test arbors. These cases feature high-density, custom-cut foam interiors that secure the arbors. They ensure your critical measurement tools are shielded from dirt, damage, and impact, maintaining their accuracy and readiness for preventative maintenance.
Steep Taper Standard Ball-End Runout Test Arbors
Ball end spindle runout test arbors are designed checking positioning accuracy of 5-axis machines, but can also be used in place of a standard runout test bars when a shorter length is required or for a touchoff point from the spindle face (ball end is ideal for this purpose).
Submit your feedback