鋼材切削加工的 6 種方法

At Gnee Steel, we provide comprehensive steel cutting and processing services to ensure high-quality and efficient steel products for our customers. In the following, we will introduce our steel cutting processes in detail, aiming to help our customers better understand and choose suitable steel cutting and processing methods

Overview of Steel Cutting Processes

Steel cutting and processing is a fundamental step in the production of steel products, and its cutting quality and efficiency are crucial for subsequent manufacturing processes. Currently, the industry mainly adopts the following steel cutting processes:

  • longitudinal cutting
  • Transverse cutting
  • Plasma Cutting
  • Laser Cutting
  • Water Jet Cutting
  • 火焰切割

GNEE-STEEL-PLATE-FCTORY
Welcome Come To Our Factory

These processes have their respective advantages and disadvantages, with varying application scenarios and cutting effects. Gnee Steel is fully equipped with production lines for all the aforementioned cutting processes, and we will elaborate on each of them.


Longitudinal cutting of Steel Materials

Longitudinal cutting is suitable for the initial rough cutting of steel products, featuring high efficiency and low cost. We have multiple large cutting machines capable of cutting steel materials up to 18 meters in length and 16 millimeters in thickness. The cutting blades apply cutting force to cut through the steel materials, providing a simple and rapid cutting method.

However, Longitudinal cutting is limited to straight-line cutting of steel materials and cannot cut curves or other special shapes. The cut edges will have a certain degree of burrs that require further deburring treatment. Additionally, cutting thicker steel material may result in some deformation. Therefore, when you have specific requirements for cutting precision and steel shapes, we recommend adopting other processes such as plasma cutting, laser cutting, or water jet cutting.

Transverse cutting of Steels

Similar to Longitudinal cutting, transverse cutting also uses cutting machines, but the cutting direction is along the width of the steel materials. Our production lines are equipped with large cutting machines capable of cutting steel material up to 3 meters in width, suitable for most standard-width steel material.

Transverse cutting also offers the advantages of speed and low cost, making it ideal for cutting wider steel materials into multiple smaller-sized material to meet different application requirements. However, it shares the limitations of straight-line cutting, burr formation, and potential deformation, which may not satisfy some applications with higher cutting quality requirements.

Steel Plasma Cutting

Plasma cutting is one of our precision cutting processes. It utilizes the high temperature (approximately 30,000°C) generated by a plasma arc to locally melt the steel materials, and then a high-speed gas is used to blow away the molten material, achieving the cutting process. This method can cut steel material of various specifications and shapes, including straight lines, curves, and other complex patterns.

Plasma cutting can cut steel products of various specifications and shapes, whether straight lines, curves, or other complex patterns, with excellent cut quality, smooth and straight cut edges, and no significant heat-affected zones. Our plasma cutting equipment can cut steel materials up to 50 millimeters in thickness.

Due to its high precision and cutting quality, plasma cutting is particularly suitable for processing steel structures, mechanical components, and other applications with high cut edge requirements. Our professional technicians will formulate reasonable plasma cutting process plans based on the specific product requirements of different customers.

Steel Laser Cutting

Laser cutting is our flagship product for precision steel material cutting and processing. We employ advanced 6000W fiber laser cutting systems capable of high-precision cutting of steel material in various shapes, including straight lines, curves, circles, and complex irregular shapes, with a cutting accuracy of ±0.1 millimeters.

Laser cutting produces excellent cut quality, with smooth and even cut edges, and no heat-affected zones. Our laser cutting equipment can cut steel material up to 25 millimeters in thickness, covering a wide range of steel materials such as carbon structural steel, alloy structural steel, and stainless steel.

The laser cutting process combines high precision and high efficiency, making it the preferred choice for precision steel material cutting and processing. Our professional technicians will provide the most reasonable laser cutting solutions by comprehensively considering the customer’s product requirements and material characteristics.

Steel Water Jet Cutting

To address the cutting requirements of certain special steel materials or extra-thick steel material, we are equipped with advanced water jet cutting systems. Water jet cutting utilizes extremely high water pressure (approximately 4,000 bar) to locally remove material from the steel material.

The outstanding advantage of water jet cutting is its ability to cut without heat effects or deformation, suitable for cutting almost any material, including difficult-to-cut aluminum alloys, specialty stainless steels, high-hardness alloy steels, and non-metallic materials such as stone. The cutting thickness is also unlimited, with our water jet cutting equipment capable of cutting steel material up to 500 millimeters in thickness.

This process is particularly suitable for the aerospace, energy, and shipbuilding industries, offering excellent cutting performance for special steel materials and extra-thick steel material used in these sectors. Our professional team can provide customized water jet cutting solutions tailored to customer needs.

Steel Flame Cutting

Flame cutting is the most traditional cutting method in the steel material processing industry. It utilizes a high-temperature flame to locally melt the steel material, and then compressed air is used to blow away the molten material, achieving the cutting process.

We employ semi-automated flame cutting equipment capable of cutting steel material up to 200 millimeters in thickness, with relatively high cutting efficiency. Due to its simple process and low cost, flame cutting is often used for low-end steel material cutting applications with less stringent quality requirements.

It is important to note that flame cutting will produce a certain heat-affected zone and protrusions at the cut edges, resulting in relatively rough cut surfaces. Therefore, for products with higher cutting quality requirements, we generally recommend more advanced processes such as plasma cutting, laser cutting, or water jet cutting.

結論

The above covers the comprehensive steel material cutting and processing services provided by Gnee Steel. We will recommend and formulate the most suitable cutting process plan based on the specific requirements of different customers, such as steel material, specifications, shapes, and cutting precision, ensuring high-efficiency and high-quality cutting services to create maximum value for our customers.

Whether you are a new or existing customer, we adhere to the principle of “dedicated service and continuous improvement,” wholeheartedly providing personalized one-stop steel material cutting solutions. We look forward to working closely with you to create a new era of excellence in the steel processing industry.

為什麼選擇吉尼鋼

如果您想尋找值得信賴的鋼材製造商,Gnee將是您的最佳選擇。 15年經驗鋼鐵產品製造商,通過船級社、CE、ISO、SGS認證。我們保證最高的安全和品質標準。我們滿足著名船級社的所有要求。
證書

此外,我們的鋼材已成功出口到德國、韓國、美國、墨西哥、阿根廷等60多個國家。許多老客戶來我們公司和工廠參觀並下了多個訂單。

合作公司展示

我們使用 cookie 為您提供最佳的線上體驗。同意即表示您接受根據我們的 cookie 政策使用 cookie。

關閉彈出視窗
隱私設定已儲存!
隱私設定

當您造訪任何網站時,它可能會在您的瀏覽器上儲存或檢索訊息,主要以 cookie 的形式。在此控制您的個人 Cookie 服務。

拒絕所有服務
節省
接受所有服務
開啟隱私設定
價格
電子郵件
Whatsapp