How accurate are Lewei Precision’s laser cuts?

Our laser cutting process achieves dimensional accuracy within ±0.01 mm, ensuring precise and consistent results even for intricate geometries.

What is the maximum thickness Lewei can cut?

We can cut up to 25 mm for carbon steel, 15 mm for stainless steel, 15 mm for aluminum, and 12.7 mm for copper using advanced 10 kW laser systems.

How fast can I receive my laser-cut parts?

Lead times typically range from 3 to 5 days depending on complexity and volume. Instant DFM quotes help accelerate project initiation.

Do you offer custom finishes for laser-cut parts?

Yes, we provide powder coating, anodizing, polishing, and brushed finishes upon request to enhance appearance and durability.

カスタム・オンライン・レーザー切断サービス

Get precisive laser cutting of metal and non-metal components with clean edges, tight tolerances, and uniform quality. We also have superior laser cutting technology which enables us to prototype quickly and scale production.

新しいCNC見積もりを始める

ルーウェイ精密 ____
レーザー切断とは？

Laser cutting is an accurate and efficient manufacturing technique where high powered laser beam is employed to cut materials to accurate shapes and fine designs. The process is popular in making complex parts that have tight tolerances, clean edges and consistent quality; therefore, it is suitable in prototyping and production.

At Lewei precision, we offer professional level laser cutting services on a vast array of different materials, such as metals, plastics, and other sheet materials. And our highly developed laser cutting system brings about a smooth surface, high precision and repeatability of the entire part, whether you require a single prototype or a batch of production.

Simplify your manufacturing process with Lewei Precision that provides you with the instant quoting system that accepts a variety of CAD file types. Posting your design will enable you to obtain pricing very quickly as well as seamlessly transitioning through design to laser cutting production and saves you time, cost, and enables you to bring your parts to the market much sooner.

レーザーカッターの種類 ____
ルーウェイ精密にて

ファイバーレーザー切断

Fiber laser cutting has a high speed and high-precision cutting of metal with clean edges and tight tolerances, which suits stainless steel, aluminum, and other reflective metal usage.

CO2レーザー切断

CO₂ laser cutting is applicable on non-metal materials, and it can create smooth edges and fine details on plastics, acrylic, wood, foam, and laminated sheets.

Nd:Yagレーザー切断

Nd:YAG laser cutting is a high power and deep cut laser with the ability to cut thick materials and complicated parts that need the highest level of precision.

Surface Finish Options for Laser Cutting

Selecting an appropriate surface finish following laser cutting enhances appearance, stability and functionality of parts. Lewei Precision has a variety of options of the laser cutting surface finish that can fulfill the needs of functions, aesthetics, and industry-related demands.

As-Cut Laser Finish

The finish obtained immediately after laser cutting, with smooth edges and a light cut line. Best used in functional components where appearance is not much of a concern, and speed of delivery is needed.

Deburring & Edge Smoothing

Eliminates minor burrs and sharp edges formed during the laser cutting process. This finish enhances safety, handling parts, and fitting assembly and also retains dimensional precision.

研磨

Improves surface finish and gloss to laser-cut components that are utilized in decorative or customer-facing applications. Aesthetics and surface quality are enhanced by polishing.

ブラッシュ仕上げ

Applies a directional surface texture to stainless steel laser-cut components often used uniformly. Appropriate with visible parts that need a professional, clean look.

パウダーコーティング

Coats it with a wearable, durable, protective coating that enhances corrosion resistance and appearance. Laser-cut parts that are prone to wear or outdoor settings can be coated using powder.

Anodizing (Aluminum Only)

Enhances corrosion resistance, surface hardness and looks of aluminum parts cut by laser. Functional and aesthetic needs can also be colored in anodizing.

Certified Quality Control & Precision Inspection

Lewei Precision has a high quality control and inspection process that makes sure that each piece conforms to the precise specifications prior to shipping. All components are meticulously inspected in terms of dimensional accuracy at a predetermined level of calibrated measurement instruments to verify tolerances, fit, and functional requirements. This guarantees quality stability in both prototype and production parts even on complex or high precision applications.

Besides checking the dimensions, every part is carefully examined in terms of its edges and surfaces. To obtain clean edges and consistent quality surfaces, we check burrs, heat impacted areas, and cut consistency. Lewei Precision also offers complete documentation and traceability where necessary, such as material certificates (MTRs), inspection records and quality records. Our customer meets the standards of the industry with confidence and trust in each part that is delivered to them because of this commitment to inspection and traceability.

レーザー切断材料

金属

アルミニウム、ステンレス鋼、真鍮などの金属は、その耐久性、強度、優れた耐食性で珍重されています。これらの特性は、構造的な用途にも複雑な美的部品にも最適です。

プラスチック

アクリルやポリカーボネートなどのプラスチックは、その軽量性、耐衝撃性、透明性が評価されています。これらの素材は汎用性に優れているため、工業部品から審美的な装飾品まで、さまざまな用途に適しています。

ウッズ

パイン、オーク、カエデなどの木材は、自然な木目、加工しやすさ、強度を重視して選ばれています。それぞれの品種が独特の美しさを持ち、構造用にも細部の装飾用にも適しています。

Leweiの精密レーザー切断能力

当社のカスタムレーザー切断サービスは、国際的な業界標準と現在の市場動向を順守し、高品質のレーザー切断部品をお客様にお届けします。

仕様	説明
最大部品サイズ	10mm（0.40インチ）
最小部品サイズ	最低1mm（0.04インチ）の材料厚の2倍。
距離寸法	当社のレーザー切断規格はISO 2768-cに準拠しています。一般的なサイズ：+/- 長さ、幅、直径、位置の±0.2mm（0.008インチ
材料の最大厚さ：	炭素鋼＜25 mm（0.98インチ）、ステンレス鋼＜15 mm（0.59インチ）、アルミニウム＜15 mm（0.59インチ）、銅＜12.7 mm（0.5インチ）、
カーフ（スリットサイズ）	約0.5mm（0.02インチ）
エッジコンディション	レーザーカットのエッジはマットで垂直なライン
レーザー光源	CO2およびファイバーレーザー最大10kW
再現性	±0.05mm（0.002インチ）
ポジショニングの精度：	±0.10mm（0.004インチ）
リードタイム	5～7日

レーザー切断工場

最先端技術と熟練した職人技が融合したLewei Precisionのレーザー切断工場の精度を体験してください。当工場には7台の先進的なレーザー切断機があり、それぞれ3000*1500の能力を持ち、最大30mmの厚板を±0.01mmの精度で切断することができます。これにより、金属からプラスチック、木材まで幅広い素材に対応し、あらゆるプロジェクトで高品質な結果をお約束します。

ビデオツアーで当社の業務を詳しくご覧いただき、当社のレーザー切断サービスがカスタムプロジェクトごとにどのように精度と効率の両方を実現しているかをご確認ください。優れた職人技でお客様のアイデアに命を吹き込む、当社の卓越性への取り組みをご覧ください。

機械セット

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厳しい公差

リードタイム

0 日

メリット

レーザー切断の利点

Laser cutting is a quick, precise and cost-efficient method of creating clean and accurate parts. It is also suitable in both prototyping and production, and it can provide a consistent quality in a broad variety of materials without the requirement of tooling.

High Precision for Complex Parts Laser cutting is used to cut parts with high levels of accuracy and tight tolerances hence best suited to fine detail designs and fine fitment work.
Clean Edge Quality Laser cutting produces edges that are smooth and have no burrs, leading to a secondary finishing requirement being saved and time saved.
Fast Turnaround Times: Laser cutting contributes to accelerated prototyping and fast production, which facilitates the speed of taking a project out of design and into delivery.
Cost-Effective Without ToolingLaser cutting does not need any molds or tooling and it is a cost effective method of producing prototypes and low to medium volume production.
Wide Material Compatibility Laser cutting can be employed with metals and non-metals, which means that it is possible to be flexible in the choice of a material to be used in various applications.
Consistent & Repeatable Results Laser cutting guarantees consistency in the quality of parts and that is why it is more dependable with both small batches and manufacturing runs.

アプリケーション

レーザー切断の用途

Laser cutting is adopted to create precise, clean-edge components in functional and decorative, industrial application in industries.

Brackets & Mounts The laser cutting process creates precise brackets, mounts with accurate holes and structural fit.
Enclosures & Panels Laser cutting is preferable to electrical and electronic enclosures with clean cutouts and tight tolerances.
Machine Guards & Covers Laser cutting of protective machine guards and covers ensures their safety, prolonged life, and accuracy of fit.
Gaskets & Insulation Parts Laser cutting is used to produce high precision gaskets and insulation components to seal and dampen.
Decorative Panels & Signage Precise design of architectural panels, signage, and branding elements can be done in laser cutting.

Laser Cutting Services for Various Industries

Lewei Precision offers stable Laser Cutting solutions based on the performance, accuracy and compliance requirements of various industries. Since we deal with prototypes to production, we deliver precision parts that exceed the industry standards across the world.

航空宇宙

自動車

オートメーション

医療機器

ロボット工学

消費者製品

Laser Cutting vs Other Manufacturing Methods

Your part design, material thickness, accuracy needs, and production volume determine the best manufacturing method. The comparison below helps you quickly decide when レーザー切断 is the right choice.

Comparison Factor	レーザー切断	Waterjet Cutting	Plasma Cutting	CNC加工
金型費用	$0（工具なし）	$0（工具なし）	$0（工具なし）	$0–High (fixtures/tools)
リードタイム	1–5 days	3–7 days	1–3 days	5–15 days
Best Part Type	Flat, 2D profiles	Thick plates	Thick metal plates	3D parts
精密	High (tight tolerances)	ミディアム	低い	Very high
Edge Quality	Clean, smooth edges	Slightly rough	Rough, requires finishing	素晴らしい
材料の厚さ	Thin–medium sheets	Very thick materials	Thick metals	Any (3D)
Heat Affected Zone	最小限	None	高い	None
Cost Efficiency	Excellent for detail work	Higher operating cost	Low cost, low accuracy	Higher for simple parts
Design Complexity	Excellent for complex 2D	Limited detail	Limited detail	Best for complex 3D

How to Get Started

Upload CAD Files

Upload your DXF or CAD files securely to start your laser cutting project. Our system supports standard formats and keeps your designs confidential.

Quote & DFM Review

Receive a fast laser cutting quote with clear pricing, estimated lead time, and engineering feedback to ensure manufacturability and cost efficiency.

Production & Delivery

Once approved, your parts move into laser cutting production, undergo quality inspection, and are shipped on time to meet your schedule.

Why Choose Lewei Precision for Laser Cutting?

Lewei Precision provides quality laser cutting services that target manufacturers requiring accuracy, quick delivery, and quality. Our laser cutting systems are also used in prototyping and production and contribute to the reduction of lead times, cost control, and the production of high-precision outcomes.

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High Precision Cutting

Our laser cutting technology provides high tolerances and clean edges, which is suitable when dealing with highly shaped geometries and delicate flat-sheet parts.

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Fast Online Quoting

Upload your CAD or DXF files and you will get a fast quote of the laser cutting including clear prices, material selection, and lead-time details.

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迅速なターンアラウンド

Lewei Precision offers prototyping fast laser cutting services and production parts that can deliver on time with high quality results to time sensitive projects.

CNC加工に関するFAQ

1. What is laser cutting and what is the process?

Laser cutting is a precision manufacturing technology, where a matter of laser beam is employed to cut material in precise shapes with clean edges and minimal wastage.

2. What are the materials that can be laser cut?

Laser cutting promotes a large variety of materials such as stainless steel, carbon steel, aluminum, brass, copper, plastics, acrylic, rubber, and wood.

3. What is the precision of laser cutting?

Laser cutting has high accuracy and a tight tolerance, which is perfect in detailed designs and parts that demand constant accuracy of dimension.

4. What is the thickness limit of laser cutting?

The optimum thickness of materials to be laser cut is between thin and medium thickness. Precisely this limit varies depending on the type of material and the power of laser.

5. What is the duration of laser cutting?

A majority of laser cutting jobs are done within several days, based on the complexity of parts, material and quantities.

6. Is it cost effective to laser cut small quantities?

Laser cutting is very cost-effective to prototypes and low-to-middle volume production since the process does not need any tooling.

7. Is there any post-processing needed in laser cutting?

Laser cutting is used to provide clean edges, and post-processing, including deburring, polishing or coating, is also optional where necessary.

8. What will be the accepted file formats in laser cutting?

The standard formats that are widely used are DXF, DWG and STEP, STP and other standard CAD files.

9. What is the difference between laser cutting and plasma cutting or waterjet cutting?

Laser cutting provides greater accuracy and cleaner and more detailed cuts than plasma cutting and cuts thin-material faster than waterjet cutting.

10. In what situations can laser cutting be a better alternative to CNC machining?

Laser cutting is most applicable in flat and two dimensional parts whose outlines are complex whereas CNC machining is more suitable with three dimensional parts that have depth and internal features.