HomeProductsHigh Perfomance Tool Steel

Steel for cold stamping dies

Price: Please contact

Product code: DTN-NG

Status: Available

Product Category: High Perfomance Tool Steel

Brand: AURVIC

Contact to orderClick send to contact now for advice

Support 24/7

0906.2029.34

Steel for cold stamping dies: SKD11 steel, DC11 steel, SKS93 steel, SK3 steel, SK4 steel,... used as: punching, claw stamping, deep drawing, wire broaching, drawing mold. This mold set has extremely high working efficiency, so it can produce a large number of products with the best quality. It is used with metal sheets that are thin and moderately hard.

Product info

Những loại thép làm khuôn dập nguội nên dùng hiện nay

Như đã chia sẻ, có rất nhiều loại thép làm khuôn dập nguội bạn có thể bắt gặp trên thị trường hiện nay. Và 5 cái tên sẽ được chúng tôi chia sẻ ngay dưới đây chính là lựa chọn hoàn hảo dành cho bạn.

– Thép SKD11

Đây là loại thép có tính ứng dụng cao trong công nghệ sản xuất khuôn dập nguội. Nó là loại thép có nhiều ưu điểm vượt trội và rất phù hợp với ngành gia công khuôn dập nguội. Thông số cụ thể của thép này là:

Thành phần hóa học: Cacbon (1.5%), Crom (12%), Molipden (1%), Vanadium (0.35%), Silic (0.25%) và Mangan (0.45%).
Nhiệt độ ủ: 830-880 độ C
Nhiệt độ tôi: 1000-1050 độ C
Độ cứng: 58-60 HRC

– Thép DC11

Là vật liệu cao cấp được sử dụng cho lĩnh vực cơ khí chế tạo khuôn. Nó có ưu điểm là bề mặt gia công cắt gọn mịn, có tính thẩm mỹ cao, khả năng chịu mài mòn tốt. Chúng hoàn toàn không bị biến dạng, hay phá vỡ cấu trúc dưới tác động của khuôn dập nguội. Bạn có thể thấy thông số của chúng như sau:

Thành phần hóa học: Cacbon (1.4-1.6%), Silic (0.4%), Mangan (0.6%), Photpho (0.03%), Lưu huỳnh (0.03%), Niken (0.18%), Crom (11-13%), Đồng (0.25%), Molipden (0.8-1.2%), Vanadium (0.2-0.5%)
Độ cứng thép: 60-62 HRC

– Thép SKS93

Loại thép này có tính cứng và chống mài mòn cực kỳ tốt vì vậy chúng không hề bị biến dạng dưới tác động của khuôn dập nguội. Nó được dùng để làm khuôn vuốt lỗ sau, lỗ hình, bàn ren. Thông số kỹ thuật của chúng là:

Thành phần hóa học: C (1.05%), Si (0.48%), Mn (1%), Ni (0.25%), Cr(0.5%), P(0.03%), S(0.03%).
Nhiệt độ ủ: 750-780 độ C
Nhiệt độ tôi: 790-850 độ C
Nhiệt độ RAML 120-200 độ C
Độ cứng: >=62HRC

– Thép SK3

Loại thép này có khả năng chống mài mòn và độ cứng khá tốt, nó có được độ giãn dài của loại thép này là 32% và độ bền kéo đứt là 783 N/mm2. Nên hoàn toàn không bị biến dạng dưới tác động của lực lớn từ khuôn dập nguội. Thông số kỹ thuật cụ thể của nó như sau:

Thành phần hóa học: C (0.95%), Si (0.25%), Mn (1.05%), Cr (0.75%), P(0.025%) và S(0.01%).
Nhiệt độ ủ: 760-820 độ C
Nhiệt độ RAM: 150-200 độ C
Độ cứng : 53 HRC

– Thép SK4

Về cơ bản thì SK3 và SK4 tương đương nhau về chất lượng và đặc tính. Vì vậy bạn có thể thoải mái lựa chọn. Thông số kỹ thuật của thép như sau:

Thành phần hóa học: C (1%), Si (0.35%), Mn (0.55%), Ni (0.25%), Cr (0.3%), Cu (0.25%), P (0.03%), S (0.03%)
Nhiệt độ ủ: 740-760 độ C
Nhiệt độ tôi: 760-820 độ C
Nhiệt độ RAM: 150-200 độ C
Độ cứng: >= 61HRC

Các loại thép làm khuôn này hiện tại đều có mặt ở Intmech nên bạn hoàn toàn có thể thoải mái lựa chọn.

AURVIC JOINT STOCK COMPANY

Address: No. 9A, 321/21/48 Phuc Loi Street, Group 8, Phuc Loi Ward, Long Bien District, Hanoi City, Vietnam

Hotline: +84 906.2029.34 / +84 94.148.2616

Email: aurvic001@gmail.com

Website: www.aurvic.com

Go to collection High Perfomance Tool Steel

What is mold steel? Overview of mold steel

I. What is mold steel?

Mold steel is steel used to produce molds and casting molds.

II. Classify

There are 2 ways to classify mold steel: classifying by quality and classifying by use.

1. Sort by quality

– Regular steel

Easy to process and cut, less wear and tear, easy to polish and cool. However, this type of steel has low hardness and the surface does not achieve high gloss. Low cost price. Some common steel grades such as: S45C, SCM440, S50C,...

– High quality steel

Higher hardness will give the product a perfect surface and good mechanical properties such as impact resistance, good abrasion resistance, long-term high temperature resistance, anti-rust, increased mold durability,... In addition, in this type of steel we can absorb nitrogen to harden the surface or plate with Chromium, Nickel, volume quenching,... depending on the technical requirements of each detail. High cost and processing costs. Some high quality steel grades such as: SKD11, SKD61, SKD62, 2316, 2083, NAK80,...

2. Classified by use

Steel for plastic molds
Steel for hot stamping dies
Steel for cold stamping dies
Heat pressed aluminum steel

III. Factors affecting the quality of mold steel

1. Chemical composition

Carbon: Increases the hardness of steel during tempering. Increases wear resistance, reduces ductility and weldability of steel.

Crom: One of the ingredients that increases hardness. Forms the durability and stability of steel. Improved wear resistance. When the Cr content is >12%, it has an anti-rust effect, and produces a shiny surface.

Molip: As an additive for the carbonization process of element formation, it increases wear resistance. MO > 0.5% can prevent other alloying elements from heating and breaking the steel

Vofram: Forms high hardness carbonization, increases wear resistance, reduces reaction when heat treated. Increases the durability of steel, increases stability during the steel tempering process.

Niken: Enhance toughness, improve wear resistance, along with Cr - Mo to improve heat resistance and chemical corrosion resistance.

Sulfur: Usually exists in the form of MnS

2. Production technology

Blowing oxygen furnace (BOF) and electric furnace (EAF) technology

3. Heat treatment

– Concept: Heat treatment is the process of heating steel to a specific temperature, keeping the temperature there for an appropriate time and then cooling at a specified rate to change the microstructure, thereby changing the structure. Change the mechanical properties of steel as desired.

* Heat treatment methods:

– I steel

Concept: Tempering steel is a method of heating steel above a critical temperature to create a heat-retaining austenite structure and then cooling it quickly enough for the austenite to transform into martensite or other unstable structures with high hardness.

Purpose:

+ Improve the hardness and abrasion resistance of steel.

+ This is the most important method of mold steel.

+ Required process before putting finished molds into use.

+ Depending on the steel grade, the maximum hardness achieved is different.

– Annealing steel

Concept: Annealing of steel is the process of heating steel to a certain temperature (from 200 - 10000C), keeping the heat for a long time and then cooling slowly with the furnace to achieve a stable structure.

Purpose:

+ Reduces hardness to make cutting easier.

+ Increases ductility to make it easier to stamp, roll and draw steel in a cold state

+ Reduces or eliminates internal stress after mechanical processing, casting, and welding operations.

+ Make steel grains smaller if the previous operation made large grains.

– Steel ram

Concept: Tempering is a heat treatment method of heating tempered steel below critical temperature temperatures (AC1), holding the temperature for a while and cooling. In order for martensite and residual austenite to differentiate into suitable structures suitable to specified working conditions.

Purpose:Reduce or eliminate residual stresses after quenching to the level necessary to meet the long-term working conditions of mechanical products while still maintaining mechanical properties after quenching.

4. Quality control measures

– Ultrasound using ultrasound waves

– Check chemical composition

– Check hardness

– Test tensile strength

– Check flexibility

– Check outside

Steel for cold stamping dies