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Die-casting parts are a type of pressure casting parts that use a pressure casting mechanical die-casting machine equipped with a casting mold to pour molten copper, zinc, aluminum, or aluminum alloys into the feeding port of the die-casting machine.

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Die-casting parts are a type of pressure casting parts that use a pressure casting mechanical die-casting machine equipped with a casting mold to pour molten copper, zinc, aluminum, or aluminum alloys into the feeding port of the die-casting machine.

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Die-casting parts are a type of pressure casting parts that use a pressure casting mechanical die-casting machine equipped with a casting mold to pour molten copper, zinc, aluminum, or aluminum alloys into the feeding port of the die-casting machine.

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Die-casting parts are a type of pressure casting parts that use a pressure casting mechanical die-casting machine equipped with a casting mold to pour molten copper, zinc, aluminum, or aluminum alloys into the feeding port of the die-casting machine.

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Die-casting parts are a type of pressure casting parts that use a pressure casting mechanical die-casting machine equipped with a casting mold to pour molten copper, zinc, aluminum, or aluminum alloys into the feeding port of the die-casting machine.

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Die-casting parts are a type of pressure casting parts that use a pressure casting mechanical die-casting machine equipped with a casting mold to pour molten copper, zinc, aluminum, or aluminum alloys into the feeding port of the die-casting machine.

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Die-casting parts are a type of pressure casting parts that use a pressure casting mechanical die-casting machine equipped with a casting mold to pour molten copper, zinc, aluminum, or aluminum alloys into the feeding port of the die-casting machine.

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Die-casting parts are a type of pressure casting parts that use a pressure casting mechanical die-casting machine equipped with a casting mold to pour molten copper, zinc, aluminum, or aluminum alloys into the feeding port of the die-casting machine.

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Die-casting parts are a type of pressure casting parts that use a pressure casting mechanical die-casting machine equipped with a casting mold to pour molten copper, zinc, aluminum, or aluminum alloys into the feeding port of the die-casting machine.

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Die-casting parts are a type of pressure casting parts that use a pressure casting mechanical die-casting machine equipped with a casting mold to pour molten copper, zinc, aluminum, or aluminum alloys into the feeding port of the die-casting machine.

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Die-casting parts are a type of pressure casting parts that use a pressure casting mechanical die-casting machine equipped with a casting mold to pour molten copper, zinc, aluminum, or aluminum alloys into the feeding port of the die-casting machine.

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Die-casting parts are a type of pressure casting parts that use a pressure casting mechanical die-casting machine equipped with a casting mold to pour molten copper, zinc, aluminum, or aluminum alloys into the feeding port of the die-casting machine.

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(1) The CNC numerical control process should consider the processability of the processed parts, determine the clamping and positioning of the processed parts, select cutting tools, formulate process routes, cutting methods, and process parameters, which can be simplified in conventional processes.

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(1) The CNC numerical control process should consider the processability of the processed parts, determine the clamping and positioning of the processed parts, select cutting tools, formulate process routes, cutting methods, and process parameters, which can be simplified in conventional processes.

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(1) The CNC numerical control process should consider the processability of the processed parts, determine the clamping and positioning of the processed parts, select cutting tools, formulate process routes, cutting methods, and process parameters, which can be simplified in conventional processes.

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(1) The CNC numerical control process should consider the processability of the processed parts, determine the clamping and positioning of the processed parts, select cutting tools, formulate process routes, cutting methods, and process parameters, which can be simplified in conventional processes.

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(1) The CNC numerical control process should consider the processability of the processed parts, determine the clamping and positioning of the processed parts, select cutting tools, formulate process routes, cutting methods, and process parameters, which can be simplified in conventional processes.

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(1) The CNC numerical control process should consider the processability of the processed parts, determine the clamping and positioning of the processed parts, select cutting tools, formulate process routes, cutting methods, and process parameters, which can be simplified in conventional processes.