What is PLASTIC MOULD STEEL? Are you looking for DIN 2738 Plastic Mould Steel?

This steel is an alloy of iron and nickel with a minimum of 10% carbon. It is used to make plastic moulds and dies, as well as castings for various purposes.

Plastic mould steel has a low coefficient of expansion, which makes it ideal for use in the cold environment of a plastic mould. It also has good machinability.

The alloy has good weldability and can be easily worked without cracking due to its high strength.

Plastic mould steel is one of the most common materials used in manufacturing. This type of steel is commonly used to make products that are at risk of being damaged or destroyed by heat, such as food cans, drink bottles and food packaging.

Plastic mould steel is not just a good material for these products, but it can also be used for other purposes including: furniture construction, fencing, car parts and industrial components.

Plastic mould steel is an alloy of carbon, silicon, manganese and phosphorous. It has a high strength and ductility, with good fracture toughness properties. The addition of phosphorus gives it very good resistance to cold working. This material is usually used in complex machine parts where precision is required. It can be cast or forged.

Plastic mould steel is a type of steel that is used in many manufacturing processes. It is also used to make rubber and plastic moulds, which are then used to create products such as tools and toys. Plastic mould steel has many advantages over other types of steel. It can be formed into shapes that are difficult or impossible to achieve with other types of steel, and it can be used in high-temperature applications without being damaged by harsh conditions or chemicals.

DIN 2738 Plastic Mould Steel

Although less expensive options such as Aluminum exist for making moulds to be used for shaping plastic, steel is most often the optimum one. It may impose more investment to begin with but this is offset by its undoubtedly greater operational life and better finish. Also the specialized steels that have been created for plastic moulding make for rapid process speed – for any duration it can handle more repetitions than other materials and so enhance productivity.

Steel properties as given below, however, have to be optimally matched to the specific application and these are: - Degree of purity - Polishability - Uniformity of hardness and microstructure - Wear resistance - Temperature resistance - Machinability - Toughness and hardness - Thermal conductivity

It is in this contet that Deutsches Institut für Normung e.V. Germany’s national organization for standardization prepared more than one standard for steel that is primarily meant for moulding plastic though they may find alternative application as well. Their DIN 2738 standard is one such and is basically an extension of DIN 2312 and roughly matches AISI P20+Ni.

DIN 1.2738 Steels are low Carbon consisting of Carbon between 0.35 to 0.45%

(approximately 10 to 20% more than P20+Ni); Chromium between 1.80 and 2.10% (slightly more than P20+Ni); Manganese between 1.30 and 1.60% (substantially more than P20+Ni); and traces of Molybdenum. They may not contain any Tungsten (unlike P20+Ni) but incorporate between 0.90 and 1.20% of Nickel – exactly the same as P20+Ni.

The Nickel component contributes uniform hardness and structure, improves machinability and a polish that is easy to maintain.

This makes 1.2738 mould steel the ideal material for relatively low temperature applications such as die casting dies and injection moulds, synthetic plastic moulds dies, and especially for large plastic moulds that are easily stressed at their core. They are also ideal for hydroforming tools. DIN 1.2738 is suitable for nitriding and chrome plating.

It is the preferred material for moulds shaping plastic products such as automobile bumpers and TV shells. And also for moulds for rubber products that are based on both hard rubber (PS) and ultra-hardened rubber (ABS). It is excellent in its processing performance, easy cutting and imparting finish to the end product. It resists electrical corrosion.

It is most cost effective when used for high-volume plastic moulding such as TV set bodies, laptop bodies, plastic parts for home appliances and automotive parts and any such where finish is important.

As Virat Special Steels inform us, DIN 1.2738 tool steel is usually supplied as pre-hardened/quenched and tempered to 280 – 320 HB hardness. Still, after machining if the need arises, they can be annealed by first heating to 710°C and after the temperature gap between core and surface has narrowed to 740 °C for about 2 to 5 hours; followed by cooling slowly at the rate of 10 to 20 °C per hour to about 600 °C before further air cooling.

Hardening is conducted in the temperature range of 840-870°C to be followed by immediate quenching in oil/hot bath/air to a temperature between 180 to 220°C. Hardness after quenching is around 52 HRC.

wo rounds of tempering are required immediately after such hardening and the heating to tempering temperature must be gradual. Higher temperatures result in steel with lower hardness values (700°C results in an HRc of barely 30 while tempering at 250°C will result in HRc of 50). The duration of tempering at the chosen temperature should correspond to 1 hour per 20 mm of thickness.

They are usually supplied as Round Bar of diameter ranging from 20mm to 1000mm or as Plate or Block of thickness ranging from 12-500mm x width 200-2000mm. Generally black on the surface, they can be customized for clients in Roughly Machined, Peeled or Turned condition.