304 대 316 스테인레스 스틸 레이저 절단: 매개변수, 비용 & Edge Quality Guide

304 대 316 스테인레스 스틸 레이저 절단: 매개변수, 비용 & Edge Quality Guide

304 그리고 316 stainless steel sheets are two of the most widely used stainless materials in precision fabrication. Although they look almost identical after polishing or surface finishing, their behavior under high-energy laser cutting is significantly different. For fabrication companies, choosing the wrong cutting parameters can result in excessive dross, edge discoloration, rough cut surfaces, and unnecessary material waste.

The key difference comes from chemistry. The addition of molybdenum (모) 준다 316 stainless steel superior chloride corrosion resistance, but it also changes the melting behavior during laser processing. Understanding these differences allows manufacturers to optimize cutting speed, 레이저 파워, 초점 위치, and assist gas settings for better efficiency and quality.

304 대. 316 스테인레스 스틸: Similar Appearance, Different Cutting Behavior

From a visual perspective, 304 그리고 316 stainless steel plates are difficult to distinguish. Both can be supplied with 2B, 학사, 브러시, or mirror finishes. 하지만, their metallurgical structures create different reactions during laser cutting.

재료 Main Alloy Elements Laser Cutting Characteristics
304 스테인레스 스틸 약 18% Cr + 8% ~ 안에 Stable melting behavior, easier slag removal
316 스테인레스 스틸 약 16% Cr + 10% ~ 안에 + 2% 모 Higher molten pool viscosity, requires optimized parameters

Why Does 316 Stainless Steel Become More Difficult to Cut?

The main factor is molybdenum. ~ 안에 316 스테인레스 스틸, 약 2% molybdenum improves resistance against pitting and crevice corrosion, especially in chloride environments such as marine, 화학 처리, and food applications.

하지만, 레이저 커팅 중, the molten metal behavior is different.

  • 316 produces a heavier and more viscous molten pool.
  • The liquid metal is more difficult for assist gas to remove.
  • Insufficient gas pressure can cause bottom-edge dross.
  • Cutting speed usually needs slight reduction to achieve a clean edge.

This means that 316 stainless steel requires more careful parameter adjustment compared with 304.

Recommended Laser Cutting Parameter Adjustment: 304 대. 316

매개변수 304 스테인레스 스틸 316 스테인레스 스틸 Adjustment Reason
절단 속도 100% Reference 90%–95% Reference Longer heat interaction improves melting efficiency
Laser Power Standard Setting Increase approximately 5% Helps overcome higher molten pool resistance
Duty Cycle 기준 Slightly Increased Maintains stable thermal input
Focus Position -1mm to -2mm Move downward approximately 0.5mm Improves bottom penetration and reduces dross

Nitrogen Cutting: Gas Pressure and Purity Requirements

For stainless steel laser cutting where a bright and oxidation-free edge is required, 질소 (N2) is the preferred assist gas. High-purity nitrogen prevents oxidation and maintains a clean metallic appearance.

A nitrogen purity level of approximately 99.9% or higher is commonly recommended for high-quality stainless steel processing.

재료 Assist Gas Recommendation Pressure Consideration
304 스테인레스 스틸 High-purity Nitrogen Standard pressure range
316 스테인레스 스틸 High-purity Nitrogen Usually requires higher pressure, approximately 1.5–2 Bar increase

Because the molten material from 316 is heavier, insufficient nitrogen pressure may cause molten droplets to remain attached to the bottom edge, creating hard dross.

420 스테인레스 스틸 시트

How to Identify a High-Quality Laser Cut Edge

A professional laser cut stainless steel edge should be evaluated based on surface appearance, heat impact, and slag condition.

1. Cutting Edge Texture

304 stainless steel usually produces finer vertical cutting lines due to its smoother molten flow. 316 may show slightly stronger vertical patterns, but the lines should remain consistent and uniform.

2. 열 영향 구역 (위험요소)

The heat affected zone should remain narrow and evenly distributed. Excessive heat input can cause discoloration, surface oxidation, and additional finishing requirements.

3. Dross Inspection

Dross Appearance Possible Cause
Fine needle-like burrs Assist gas pressure too low
Large round molten particles Cutting speed too slow
Uneven slag accumulation Incorrect focus or unstable parameters

304 대. 316 Laser Cutting Cost Considerations

하지만 316 stainless steel offers superior corrosion resistance, its laser processing requirements are usually more demanding. Lower cutting speeds, higher nitrogen consumption, and additional parameter optimization increase fabrication costs.

In large-scale projects, laser cutting costs for 316 stainless steel can typically be around 15%–25% higher than 304 processing costs, excluding the raw material difference.

Cost Factor 304 316
절단 속도 더 높은 Slightly Lower
Nitrogen Consumption 기준 더 높은
Parameter Adjustment Difficulty 낮추다 더 높은
처리 비용 Baseline Approximately 15%–25% higher

Applications Where Laser-Cut 304 그리고 316 Stainless Steel Are Commonly Used

  • 식품 가공 장비
  • Commercial kitchen fabrication
  • Medical equipment components
  • 해양 구조물
  • 화학 처리 장비
  • Architectural stainless steel panels
  • 정밀산업부품

How Teda Ganghua Supports Precision Stainless Steel Fabrication

Teda Ganghua supplies high-quality stainless steel plates with stable chemical composition, consistent thickness tolerance, and reliable surface quality for precision fabrication projects. With professional processing capabilities and experience in stainless steel applications, Teda Ganghua helps customers optimize material selection, laser cutting performance, and final product quality.

Whether customers require corrosion-resistant 316 stainless steel for marine and chemical environments or cost-efficient 304 stainless steel for general fabrication, technical support is provided to match the right grade with the right application.

Explore our complete range of
스테인레스 강판
for industrial fabrication and precision processing.

Frequently Asked Questions

할 수 있다 304 그리고 316 stainless steel use the same laser cutting settings?

아니요. Although both materials are austenitic stainless steels, 316 requires slower speed, higher gas pressure, and optimized focus because of its higher molten metal viscosity.

Why does 316 stainless steel produce more dross during laser cutting?

The molybdenum-containing alloy structure changes molten pool behavior, making the liquid metal heavier and more difficult for nitrogen gas to remove.

Which assist gas is best for stainless steel laser cutting?

High-purity nitrogen is commonly preferred when a bright, oxidation-free cutting edge is required.

Is laser cutting 316 more expensive than 304?

예. Due to slower cutting speeds and higher gas requirements, 316 laser processing usually has a higher fabrication cost.

How can buyers ensure good laser-cut stainless steel quality?

Check edge smoothness, dross level, heat affected zone, 치수 정확도, and material certification before accepting finished parts.

1.5 mm 강판


장바구니에 추가되었습니다.
점검