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The blows are delivered with a hammer (often a power hammer) or a die. The blows are delivered with a hammer (often a power hammer) or a die. Forging is a manufacturing process involving the shaping of metal using localized compressive forces. The blows are delivered with a hammer (often a power hammer) or a die.

The blows are delivered with a hammer (often a power hammer) or a die. The blows are delivered with a hammer (often a power hammer) or a die. Forging is a manufacturing process involving the shaping of metal using localized compressive forces. The blows are delivered with a hammer (often a power hammer) or a die.

The blows are delivered with a hammer (often a power hammer) or a die. The blows are delivered with a hammer (often a power hammer) or a die. Forging is a manufacturing process involving the shaping of metal using localized compressive forces. The blows are delivered with a hammer (often a power hammer) or a die.

The blows are delivered with a hammer (often a power hammer) or a die. The blows are delivered with a hammer (often a power hammer) or a die. Forging is a manufacturing process involving the shaping of metal using localized compressive forces. The blows are delivered with a hammer (often a power hammer) or a die.

The blows are delivered with a hammer (often a power hammer) or a die. The blows are delivered with a hammer (often a power hammer) or a die. Forging is a manufacturing process involving the shaping of metal using localized compressive forces. The blows are delivered with a hammer (often a power hammer) or a die.


Castings


Copper Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Copper Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Stainless Steel Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Aluminium Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Nickle Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow


Forgings


Copper Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Copper Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Stainless Steel Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Aluminium Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Nickle Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow


Closer Die Forgings


Copper Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Copper Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Stainless Steel Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Aluminium Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Nickle Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow


Roller Products


Copper Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Copper Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Stainless Steel Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Aluminium Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Nickle Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow


Components


Copper Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Copper Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Stainless Steel Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Aluminium Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow

Nickle Alloy Castings


Industrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow thatIndustrial forging creates parts that are stronger than either casting or machining them. The metal, having been pounded into a shape, creates a grain flow