Reciprocating Saw Blade Having Teeth Formed of a Cemented Ceramic Material Welded to the Body of the Blade

Organization Name

Milwaukee Electric Tool Corporation

Inventor(s)

Max R. Sawa of Palatine IL (US)

Zachary D. Bernaden of Milwaukee WI (US)

Zachary J. Geschke of Milwaukee WI (US)

Eric A. Lembach of Wauwatosa WI (US)

Reciprocating Saw Blade Having Teeth Formed of a Cemented Ceramic Material Welded to the Body of the Blade - A simplified explanation of the abstract

This abstract first appeared for US patent application 18440559 titled 'Reciprocating Saw Blade Having Teeth Formed of a Cemented Ceramic Material Welded to the Body of the Blade

Simplified Explanation

The patent application describes a reciprocating saw blade with a unique construction for improved cutting performance.

• The saw blade has a body with a spine edge and a cutting edge, along with teeth that define the cutting portion.
• Each tooth has a base made of a hard material and a tip made of cemented ceramic material with tungsten carbide particles.
• The cemented ceramic material has a higher hardness than the base material, enhancing the blade's durability and cutting efficiency.

Key Features and Innovation

• Reciprocating saw blade with a body, spine edge, cutting edge, and teeth for cutting.
• Teeth have a base made of a hard material and a tip made of cemented ceramic material with tungsten carbide particles.
• Cemented ceramic material has higher hardness for improved cutting performance and durability.

Potential Applications

The reciprocating saw blade can be used in various cutting applications, including construction, woodworking, metalworking, and demolition.

Problems Solved

The technology addresses the need for a durable and efficient cutting tool that can withstand tough materials and prolonged use.

Benefits

• Improved cutting performance
• Enhanced durability
• Extended blade lifespan

Commercial Applications

• Construction industry for cutting materials like wood, metal, and plastic
• Woodworking industry for precise and efficient cutting
• Demolition industry for cutting through tough materials

Prior Art

Readers can explore prior art related to reciprocating saw blades, tungsten carbide tools, and cemented ceramic materials for cutting applications.

Frequently Updated Research

Stay informed about advancements in reciprocating saw blade technology, tungsten carbide materials, and cemented ceramic composites for cutting tools.

Questions about Reciprocating Saw Blade

What are the key features of the reciprocating saw blade?

The reciprocating saw blade features a unique construction with a base made of a hard material and a tip made of cemented ceramic material with tungsten carbide particles, enhancing cutting performance and durability.

How does the reciprocating saw blade improve cutting efficiency?

The blade's tip, made of cemented ceramic material with tungsten carbide particles, has a higher hardness than the base material, allowing for efficient cutting through tough materials.

Original Abstract Submitted

Embodiments of the disclosure relate to a reciprocating saw blade. The reciprocating saw blade includes a body having a first end, a second end spatially disposed from the first end, a spine edge, and a cutting edge opposite to the spine edge. The reciprocating saw blade also includes a plurality of teeth defining a cutting portion of the cutting edge. Each tooth of the plurality of teeth includes a base having a unitary construction with the body. The base is made of a first material having a first hardness. A tip is welded to the base, and the tip is made of a cemented ceramic material having a second hardness that is greater than the first hardness. The cemented ceramic material includes tungsten carbide particles and at least 3 wt % of other particles including one or more cubic carbides.