Bandsaw Blades Selection Guide - AMADA EU

Bandsaw Blades Selection Guide

/
<100
[mm]
100–400
[mm]
>400
[mm]
<100
[mm]
100–400
[mm]
>400
[mm]
<100
[mm]
100–400
[mm]
>400
[mm]
<100
[mm]
100–400
[mm]
>400
[mm]
Bandsaw blade typeRolled steel productsSteel profilesBundled materialsStructural steels,
engineering steels, non-ferrous metals *1
Cold working steels,
case-hardened steels, bearing steels
Hot forming tool steels,
stainless steels
Nikel alloys and Titanium alloysAluminium alloysTooth materialTooth tip hardnessFeatures
Carbide AXCELA HP-TS
Carbide + coating> 2500 HVEngineered for cutting hard materials on the AMADA HPSAW 310.
AXCELA HP-MS
Carbide + coating2500 HVOptimized for structural and heat-treated steels on the AMADA HPSAW 310.
AXCELA P
Carbide + coating> 2500 HVMaximum efficiency on stainless and tool steels.
AXCELA G - Series
Carbide + coatingsup to 2500 HV depending on typeOutstanding performance combined with exceptional tool life.
AXCELA STRIKER BN
Carbide + coating2500 HVFlexible, reliable cutting on modern CNC machines across a wide range of applications.
AXCELA BOOSTER BN
Carbide + coating2300 HVIdeal for universal applications on conventional machines.
AXCELA H
Carbide 1600 HVPerfectly suited for demanding materials and special applications.
AXCELA H-AP
1600 HVIdeal for large diameters and materials prone to pinching, thanks to the Anti-Pinching tooth set.
AXCELA HMAX
1600 HVDesigned for materials with surface hardness above 50 HRC.
AXCELA A - Series
1600 HVOptimized for aluminium cutting at high blade speeds.
AXCELA ALB
1600 HVSpecifically designed for cutting large Aluminium plates.
AXCELA S - Series
1600 HVOptimized for universal use on modern CNC machines.
AXCELA STRIKER
1600 HVVersatile solution for modern CNC machines with flexible application parameters.
AXCELA B - Series
1600 HVDesigned for reliable operation on conventional machines.
AXCELA BOOSTER
1600 HVVersatile solution for universal use on conventional machines.
Bi-metal AURORA
M42 + TiN950 + 2300 HVIdeal for difficult-to-cut materials with extremely long tool life.
SUPER HL-CG
M42 + TiN950 + 2300 HVEngineered for maximum thermal and mechanical wear resistance.
PROTECTOR II BN
M42 +TiAIN950 + 2300 HVCost-effective solution for cutting high-strength tubes such as steinless steels.
MAGNUM HL
AMADA M71 HSS 1000 HVIdeal on heat-resistant and difficult alloys. HI-LO patented tooth geometry.
MAGNUM HLG
1000 HVExcellent cutting performance on tool steels. HI-LO patented tooth geometry.
SIGMA
M42 HSS 950 HVIdeal for difficult-to-cut materials, especially stainless steel. The special sectional cutting channel reduces cutting resistance.
SUPER HL
950 HVReduced friction and cutting resistance for medium to large diameters. Optional Anti Pinching feature prevents pinching when cutting internally clamped materials.
SUPER HLG
950 HVVersatile cutting from standard to difficult materials.
SUPER 8
950 HVUniversal design for general applications. Reduced noise, longer blade life and high surface quality.
SGLB
950 HVOur most versatile bimetal blade for a wide range of cutting applications.
PROTECTOR II
M42950 HVDeveloped for profiles and pipes for high performance and long service life, with reinforced tooth back.
DUOS M42
M42 HSS950 HVEnables multi-diameter cutting without blade changes, maximizing efficiency on lightweight workshop machines.
 Why Tooth Hardness Matters
 To achieve efficient cutting, the tooth tip must be harder than the material being cut. As a general rule, it should be at least twice as hard.
 The hardness of the tooth tips refers to the average values published by AMADA.
  
*1For non-ferrous metals, this mainly refers to aluminium, aluminium alloys, copper and copper alloys. These metals may be equivalent to difficult-to-cut materials or, in some cases, even harder. If an alloy is used, please contact AMADA.

COMPATIBILITY KEY

  • Recommended application
  • Application limited to specific operating conditions
  • Not recommended