UNE FORME PRÉCISE POUR DES COUPES PRÉCISES
CONÇUE POUR EFFECTUER LES COUPES LES PLUS DIFFICILES
RENSEIGNEMENTS SUR LE PRODUIT
Pointes trapézoïdales en carbure de tungstène pour une coupe de précision prolongée.
La lame à pointes en carbure Apex est la lame la plus performante de SabreTooth, offrant une durée de vie inégalée et un centrage supérieur pendant les coupes. Les pointes de dent en carbure de tungstène, alternant entre une finition régulière et trapézoïdale, ainsi qu'un revêtement industriel spécial, réduisent les forces de coupe, surpassant même les lames stellitées. La durabilité accrue s'accompagne d'une productivité accrue et d'un sciage de précision prolongée, éliminant ainsi le besoin de changements fréquents de la lame. Conçue pour une utilisation unique sans réaffûtage, la durée d'utilisation peut atteindre 20 heures ou plus selon l'espèce de bois et le degré de contamination du bois.
Spécifications :
Largeur de la lame : 3,2 cm (1 1/4 po)
Épaisseur de la lame : 0,09 cm (0,039 po)
Pas (espacement des dents) : 2,2 cm (7/8 po) (1,14 dents par pouce)
Angle d'attaque : 10°
Alternance entre des pointes régulières et des pointes trapézoïdales en carbure de tungstène
L'affûtage n'est pas recommandé
IMPORTANT : Pour garantir des performances, une productivité et une longévité optimales de votre équipement, il est essentiel d'inspecter régulièrement les lames. La durée de vie des lames varie en fonction de la nature du bois et du degré de saleté. Désolé, il n’y a aucune garantie sur les articles consommables, tels que les lames.
COMPATIBILITÉ AVEC LES SCIERIES
Les lames de 273,1 cm (107,5 po) sont compatibles avec :
OS18
Les lames de 327,6 cm (129 po) sont compatibles avec :
OS23
Les lames de 365,8 cm (144 po) sont compatibles avec :
LM30, MN27, MN26, LM29, MK3, MK4, LM2K, LL24, OS27, OS31, HM126, HM130, LT10
Les lames de 401,3 cm (158 po) sont compatibles avec :
HM130MAX, LT15START, LT15, LT20, LT25/27, LT28, LT30, LT35, LT40, LT50
Les lames de 424,2 cm (167 po) sont compatibles avec :
HD38, HD36V2, HD36, LM34, OS35, H360,HFE-30, HFE-36
FREQUENTLY ASKED QUESTIONS
Portable bandsaw sawmill blades come in different profiles and materials to suit specific tasks. Key characteristics to consider include face hook angle, pitch (tooth spacing), gullet depth, and tooth set. Flex-back blades are made from flexible carbon steel with hardened tooth tips for general use. Premium blades constructed with high-speed steel or other alloys to enhance durability and cutting performance. Tipped blades feature super hard alloy tips, like Stellite or tungsten carbide, for superior wear resistance and cutting precision.
The face hook angle on a bandsaw blade refers to the tilt of the teeth relative to the blade's vertical line. A higher hook angle means the teeth are angled forward, enhancing the blade's aggressiveness for cutting, and is ideal for faster feed rates. A lower hook angle, where the teeth align closer to vertical, balance cutting speed with control, especially useful for milling harder woods and frozen logs. The choice of hook angle depends on the material type and desired outcomes, such as cutting speed and finish quality.
Tooth spacing, or pitch, on a bandsaw blade greatly influences cutting performance. Wider tooth spacing (larger pitch) enables faster cutting by removing more material with each pass, ideal for quicker cuts. Finer tooth spacing (smaller pitch) yields a smoother finish, better suited for harder materials or when a more precise cut is needed. Additionally, the pitch impacts chip clearance; larger pitches improve chip clearance, reducing the risk of clogging, which is particularly beneficial when cutting wood with high sap content.
Note: 7/8" pitch has become the most popular tooth spacing that is seen in most bandsaw sawmill blades. In the past a 3/4" pitch was commonly used for hardwoods, but many sawyers are having success with the 7/8" spacing with a less aggressive hook angle for better sawdust management or upgrading to a more premium blade option.
Gullet depth is the distance from the bottom of the gullet to the blade tip and plays a critical role in managing sawdust. A deep gullet profile has added space in the gullet which allows more sawdust to be carried before reaching capacity. This specialized feature boosts performance, particularly when milling wide boards.
The number of teeth and the angle at which they are offset is referred to as tooth set. Tooth set affects cutting efficiency, and quality of the cut. Carbon steel sawmill band blades with tempered teeth tips typically follow a Raker three tooth pattern with a uniform set distance left and right, and a third straight “raker” tooth.
Whether you’re cutting hard or softwood, a sharp blade is essential to produce high-quality lumber on your Sawmill. A sharp blade also cuts with less effort meaning less strain for you and your sawmill’s engine. As a blade gets dull its cutting performance decreases and it will take more time and effort to push through a cut. A sharp blade leaves a relatively smooth surface, when the blade loses its sharpness cut surfaces become noticeably rougher or more ragged. A dull blade may not hold its path and can dive during a cut. Finally, listen for changes in the sound of the saw, often a higher-pitched screeching or increased noise levels suggest the blade is struggling to cut through the material.
Note: A telling sign you’ve pushed a blade beyond its capacity to produce marketable boards is if you see smoke during cutting or find burn marks on the cut surface. This indicates the blade is generating excessive friction due to dullness.Ideally you should never run a blade to this point as you will get more board feet out of a blade if you sharpen it more often to maintain a precision edge.