This disclosure relates to a cutting assembly for mining or extraction. The cutting assembly comprises a circular disk cutter (18). Cutting elements are arranged around a circumferential surface of the disk cutter, each seated in a tool holder (24). The orientation of the seat is such that the cutting element (22) points tangentially in or towards the intended direction of rotation.

A cutting tool with a plurality of cutting elements connected to a support structure wherein a portion of the support structure is configured to flex or bend based on the rotational frequency of the cutting tool. The rotational frequency of the cutting tool is a product of the design and composition of the tool.

In a metal cutting circular saw, the cutting edge of a tip has an approximately recessed arc shape, and a recessed breaker portion is formed in a central portion of a rake face below the cutting edge and first side walls are provided on either side of the recessed breaker portion, and a cross-sectionally approximately recessed arc-shaped groove portion continuing to the recessed breaker portion is provided below the recessed breaker portion, second side walls continuing downward from the first side walls are formed on either side of the groove portion, and the second side walls are formed to have a width wider than the width of the first side walls so that angular portions are provided in an opposed manner in lower end portions of the respective first side walls, and the angular portions narrow the lower part of the recessed breaker portion.

In a metal cutting circular saw, the cutting edge of a tip has an approximately recessed arc shape, and a recessed breaker portion is formed in a central portion of a rake face below the cutting edge and first side walls are provided on either side of the recessed breaker portion, and a cross-sectionally approximately recessed arc-shaped groove portion continuing to the recessed breaker portion is provided below the recessed breaker portion, second side walls continuing downward from the first side walls are formed on either side of the groove portion, and the second side walls are formed to have a width wider than the width of the first side walls so that angular portions are provided in an opposed manner in lower end portions of the respective first side walls, and the angular portions narrow the lower part of the recessed breaker portion.

A segmented cutting type tipped saw blade includes a first ridge tip, a second ridge tip, a first end tip, and a second end tip. A first end of the first end tip, a second end of the second end tip, a tip end of the first ridge tip, and a tip end of the second ridge tip project radially outward. A top bevel surface extending from the first end and a top bevel surface extending from the second end, a first bevel surface and a second bevel surface extending from the tip end of the first ridge tip and a first bevel surface and a second bevel surface extending from the tip end of the second ridge tip each have a top bevel angle of greater than or equal to 3° and less than or equal to 10°.

A segmented cutting type tipped saw blade includes a first ridge tip, a second ridge tip, a first end tip, and a second end tip. A first end of the first end tip, a second end of the second end tip, a tip end of the first ridge tip, and a tip end of the second ridge tip project radially outward. A top bevel surface extending from the first end and a top bevel surface extending from the second end, a first bevel surface and a second bevel surface extending from the tip end of the first ridge tip and a first bevel surface and a second bevel surface extending from the tip end of the second ridge tip each have a top bevel angle of greater than or equal to 3° and less than or equal to 10°.

The invention discloses a non-toothed hard alloy tipped circular saw blade, comprising: a non-toothed structure steel plate with smooth outer edge; a plurality of hard alloy tips arranged in ordered array along the outer edge of the steel plate and can be sharpened according to requirements. The invention further explains how to make local structural adjustment to the saw blade according to the basic principle of the invention under the conditions of welding with solder and without solder; the saw blade in the invention has wide market prospect in portable electric power tools and battery power tools, improving the safety, cutting accuracy and versatility of the saw blade remarkably.

A sawblade includes a plurality of wave-shaped teeth formed on a continuous base section of the sawblade. Each of the teeth has a paired tooth base with a tooth base upper face and a hard metal blade arranged thereon. Each tooth base adjoins the hard metal blade arranged thereon in a flush manner on both sides along a longitudinal axis of the base section, and each hard metal blade and each tooth base upper face has two bevels and/or convexly rounded areas extending substantially along the longitudinal axis of the base section, wherein the teeth are designed to be set and/or unset.

A sawblade includes a plurality of wave-shaped teeth formed on a continuous base section of the sawblade. Each of the teeth has a paired tooth base with a tooth base upper face and a hard metal blade arranged thereon. Each tooth base adjoins the hard metal blade arranged thereon in a flush manner on both sides along a longitudinal axis of the base section, and each hard metal blade and each tooth base upper face has two bevels and/or convexly rounded areas extending substantially along the longitudinal axis of the base section, wherein the teeth are designed to be set and/or unset.

The invention relates to a method for welding hard material bodies to teeth of a saw blade, in particular of a band saw blade or circular saw blade, wherein each tooth has a joining surface, and each hard material body has a joining surface. The joining surface of the hard material body can be welded to the joining surface of the tooth. The method has the following steps: bringing each tooth of the saw blade into a working region; guiding each hard material body towards the tooth located in the working region; advancing a welding device into the working region; welding the hard material body to the tooth surface of the tooth located in the working region; and withdrawing the welding device out of the working region. According to the invention, at least one welding introduction attachment which protrudes from the joining surface of the tooth is formed on each tooth or at least one welding introduction attachment which protrudes from the joining surface of the hard material body is formed on each hard material body. The welding introduction attachment is melted upon introducing a welding pulse.