Les couteaux à plaquettes en carbure (généralement appelés ICK) sont fabriqués selon la qualité américaine C3 ou ISO K10 avec une résistance à la flexion de 2 350 PSI. Ils sont rectifiés avec précision selon une tolérance très serrée pour une interchangeabilité parfaite, une coupe de qualité et une durée de vie plus longue de l'outil. Cet insert est le remplacement parfait pour les lames HSS de la tête de coupe d'origine. Les bords en carbure restent affûtés 10 fois plus longtemps que ceux en HSS.
Prix par boîte et vendu par boîte de 10.
Taille: 14,3x14,3x2,0 mm
Biseau : 40°
Tranchant : 2
Note : C3
L'insert s'adapte aux raboteuses suivantes.
Cutech 40160H-CT Dégauchisseuse de paillasse à tête de coupe en spirale de 6 po
Cutech 40180H-CT Dégauchisseuse de paillasse à tête de coupe en spirale de 8 po
Cutech 40180HB Dégauchisseuse de paillasse à tête de coupe en spirale
Tête de coupe en spirale Cutech 40100H-CT Raboteuse 13"
Raboteuse de paillasse à tête de coupe en spirale Cutech 40200H-CT 13"
Raboteuse de paillasse à tête de coupe en spirale Cutech 40300H 13"
Raboteuse de paillasse à tête de coupe en spirale Cutech 40600H-CT 13"
Raboteuse d'établi à tête de coupe en spirale Cutech 40700H-CT 12 ½"
Cutech 40800H-CT Raboteuse d'établi à tête de coupe en spirale à deux vitesses de 13 po
Raboteuse hélicoïdale Craftex CX125HC 12,5"
Dégauchisseuse hélicoïdale d'établi Craftex CX08HTHC
Raboteuse Craftex série CX CX125HC 12,5"
Raboteuse King Canada KC-13HPC 13"
King KC-8HJC Dégauchisseuse 8"
Magnum MI-81180 Dégauchisseuse 8"
Rabot Magnum MI-31160 13"
Do I need to replace the original bearings?
If the bearings in your machine are in good condition, they can be reused by carefully removing them with a bearing or pulley puller. However, if the bearings are tightly pressed onto the shaft, removal may cause damage. To minimize this risk, we recommend replacing old bearings with our greased and sealed bearings, designed for long-lasting performance. For a smooth upgrade, we suggest adding the bearings to your shopping cart before completing your purchase.
We provide premium bearings from NSK, SKF, NTN, FAG, Timken. They are renowned for their high quality and performance, designed to provide durability and reliability in various applications
Do I need to to Add a Few Boxes of Carbide Inserts
We provide 5 carbide inserts and 5 screws as spare parts. However, many of our customers choose to purchase additional boxes, as the shipping costs for separate purchases can make it less economical.
Do I need a Torque Wrench?
To securely lock the carbide inserts, we recommend applying a torque of 48 to 52 Pound-Inches (or 5.42 to 5.88 Newton-Meters). (Note: 1 Newton-Meter is equal to 8.851 Pound-Inches, and 1 Pound-Inch is approximately 0.113 Newton-Meters.) It is crucial not to apply excessive torque, as this could cause the carbide inserts to crack or explode. On the other hand, using too little torque may result in the inserts not being properly secured, which could lead to cracks, shattering, or uneven height on the cutter block, causing ridges or lines on the board.
If one person is responsible for maintaining the machine, they can typically apply the same torque consistently without a torque wrench. However, when multiple people are involved in machine maintenance, ensuring uniform torque application can be challenging. For consistency and peace of mind, we recommend using a torque wrench.
What kind of steel the cutter block is made of?
The cutter block is constructed using GB/T 40Cr, a structural alloy steel of the same caliber as ASTM grade 5140, AISI 5140, SAE 5140, DIN 41Cr4, BS 41Cr4, JIS SCr440, and EN 41Cr4.The primary components of this steel are as follows: carbon (C) at a range of 0.37-0.44%, silicon (Si) between 0.17-0.37%, manganese (Mn) within 0.50-0.80%, and chromium (Cr) from 0.80-1.10%.
In terms of physical properties, this steel exhibits a tensile strength range of 115-234σb/MPa, a yield strength of 2σ 0.2 ≥/MPa, and an elongation capacity of 65 δ5≥ (%). It also has a HBS range of 123-321 and a HRC rating of 30.
This alloy steel is frequently utilized in low to moderately stressed components for machines, engines, and vehicles.
