WT0.2mm Stainless Steel Blade Cutting and Forming

WT0.2mm Stainless Steel Blade Cutting and Forming – Precision Process for Ultra-Thin Medical and Industrial Blades

The WT0.2mm Stainless Steel Blade Cutting and Forming is a high-precision laser machining process designed to produce ultra-thin blades for medical and industrial applications. Utilizing advanced five-axis laser cutting technology, this process ensures exceptional accuracy, durability, and a burr-free finish. Crafted from high-quality stainless steel with a thickness of 0.2 mm, the resulting blades offer superior corrosion resistance and strength, ideal for surgical scalpels, diagnostic tools, and precision industrial cutting systems. The laser-cut design delivers smooth edges and intricate geometries, ensuring precise cutting performance with minimal tissue trauma. Tailored for high-precision applications, this process meets the rigorous standards of modern healthcare and engineering.

Key Features:

Ultra-Precise Cutting: Seam width of 15–30 µm with machining accuracy of ≤±10 µm for intricate blade designs.
Burr-Free Edges: Smooth surfaces ensure safe use and minimal tissue trauma in medical applications.
Ultra-Thin Profile: 0.2 mm thickness enables lightweight and precise blade production.
High Strength: Stainless steel provides robust tensile strength for reliable cutting performance.
Corrosion Resistance: Engineered for durability in harsh medical and industrial environments.
Automated Production: Continuous feeding system ensures high efficiency and consistent quality.

Certification and Standards:

Certified under ISO 9001 and ISO 13485 for quality management. Compliant with CE and FDA regulations for medical device safety and efficacy.

Materials

Precision Stainless Steel:

Exceptional corrosion resistance ensures durability in harsh medical and industrial environments.
High tensile strength (500–1000 MPa) provides robust structural integrity.
Biocompatibility (ISO 10993) makes it ideal for medical implants and tools.
Smooth surface finish (Ra <0.2 µm) minimizes tissue trauma and enhances performance.

Hard Alloy Steel:

Superior hardness (up to 60–65 HRC) ensures excellent wear resistance.
High strength and toughness support heavy-duty applications in surgical and industrial tools.
Corrosion resistance extends lifespan in demanding environments.
Precision machinability allows for intricate designs with tight tolerances.

Other Surface-Treated Materials:

Includes coated or anodized metals like titanium, aluminum, and stainless steel with enhanced surface properties.
Surface treatments such as passivation, nitriding, or PVD coatings improve wear resistance, biocompatibility, and corrosion protection.

Application

Surgical Tools: Produces precision blades for scalpels and minimally invasive surgical instruments.
Industrial Cutting: Creates high-precision blades for electronics and material processing systems.
Diagnostic Equipment: Supports blade production for precise sample preparation in medical and laboratory devices.
Medical Device Manufacturing: Used in the production of advanced cutting and diagnostic tools.
Microsurgery: Ideal for crafting ultra-thin blades for delicate surgical procedures.

Specifications