Description
CTC Multi-purpose magnet base 1/4-28 for vibration sensors with 1/4-28 tapped hole. CTC Multi-purpose magnet base 1/4-28 is available in 30lb, 50lb, 95lb, and 120lb pull strength.
30lb pull
- Case Material: Stainless Steel
- Dimensions: 1.00″ (25 mm) OD,
.94″ (24 mm) Height - Pull Strength: 30 lbs. (14 kg)
50lb pull
- Case Material: Stainless Steel
- Dimensions: 1.40″ (36 mm) OD,
.75″ (19 mm) Height - Pull Strength: 50 lbs. (23 kg)
95lb pull
- Case Material: Stainless Steel
- Dimensions: 1.85″ (47 mm) OD,
1.10″ (28 mm) Height - Pull Strength: 95 lbs. (43 kg)
120lb pull
- Case Material: Stainless Steel
- Dimensions: 1.85″ (47 mm) OD,
1.10″ (28 mm) Height - Pull Strength: 120 lbs. (54 kg)
CTC offers a variety of adhesive and stud mounted sensor mounting pads. These are available with magnet pad options for portable field applications which include both the flat and two rail mounting options. CTC offers vibration pads to ensure very repeatable targets for route base vibration measurement needs. Specialty mounting accessories for fin cooled motors are available, as well as a variety of extension adapters are also available to allow access to bearing locations not typically permitted due to restricted access.
CTC has a unconditional lifetime warranty that is truly unconditional – they cover many repairs and replacements that are not typically covered by their competitors, including damage caused by fire, neglect, and heavy abuse. They also understand that accidents happen – that’s why they are committed to covering repairs or replacements for CTC Line products in the most unique situations. They have covered replacements of products that have been run over, crushed, and damaged during long-term submersion, among many other causes of damage. CTC is committed to standing by their customers and providing unmatched service and support for the lifetime of the CTC Line product.
FREE shipping on orders over $300
Contact us for more information.
For on-site alignment, ultrasound and lubrication service please visit Precise Reliability
