SM 12 E-CS, SKF, Enhanced Vibracon SM 12 Carbon Steel
EAN code: 7316581282487
SM 16 E-SS, SKF, Enhanced Vibracon SM 16 Stainless Steel
EAN code: 7316581282548
SM 20 ELP-ASTR, SKF, Enhanced Vibracon SM 20 Low Profile Alloy Steel
EAN code: 7316581282579
SMAT 006 LP-3, SKF, Adjustment tool for low profile Vibracon adjustable chock (Range - SM12 LP - SM20 LP )
EAN code: 7316576142475
SMSW 16LPAST, SKF, Spherical Washer low profile
EAN code: 7316577414328
SMSW 24LPAST, SKF, Spherical Washer low profile
EAN code: 7316577414359
SMSW 30LPAST, SKF, Spherical Washer low profile
EAN code: 7316577414373
This item is not currently available from our stocks.
Despatch date information is on request.
TKSA 11/KIT380, SKF, Innovative shaft alignment tool (Promotion kit TKSA 11 + shim kit TMAS 380)
EAN code: 7316576127830
This item is not currently available from our stocks.
Despatch date information is on request.
TKSA 31-S, SKF, Measuring unit "S" (stationary) for TKSA 31
EAN code: 7316576870835
TKSA 41-STDCH, SKF, 2x 400 mm (15.8 in) standard chains for TKSA 31/41
EAN code: 7316576762079
TKSA 41/KIT360, SKF, Advanced laser shaft alignment system (Promotion kit TKSA 41 + shim kit TMAS 360)
EAN code: 7316576807138
TKSA 51/KIT360, SKF, Comprehensive and intuitive shaft alignment tool (Promotion kit TKSA 51 + shim kit TMAS 360)
EAN code: 7316576807145
This item is not currently available from our stocks.
Despatch date information is on request.
This item is not currently available from our stocks.
Despatch date information is on request.
TKSA EXTCHARG, SKF, Power supply with EU, US, UK, AUS adapters
EAN code: 7316576764431
TKSA VBK, SKF, V-brackets
EAN code: 7316576762093
TMDR 2, SKF, Demonstration/Training Rig for Shaft Alignment
EAN code: 7316574642526
SM 12 E-CSTR, SKF, Enhanced Vibracon SM 12 Carbon Steel Treated
EAN code: 7316581282494
SM 20 E-CSTR, SKF, Enhanced Vibracon SM 20 Carbon Steel Treated
EAN code: 7316581282562
SM 20 E-SS, SKF, Enhanced Vibracon SM 20 Stainless Steel
EAN code: 7316581282593
About shaft alignment
Shaft misalignment breakdowns increase unplanned machinery downtime, resulting in higher maintenance costs and loss of production. Additionally, misaligned shafts can increase vibration levels and friction, which can significantly increase energy consumption and can cause premature bearing failures.
Traditional alignment methods, although very common, do not often produce the exacting degree of accuracy required by today’s precision machinery. The rough alignment methods still used nowadays, such as using a straight edge and feeler gauge, may be quick, but they can be inaccurate. Another traditional method employing dial indicators offers a higher degree of accuracy, but it requires specialist operators and can be time consuming.
- Find out more about SKF’s range of Shaft Alignment Tools