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GB/T 36484-2018 English PDF

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GB/T 36484-2018: Metal forming machinery -- Terminology
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Basic data

Standard ID: GB/T 36484-2018 (GB/T36484-2018)
Description (Translated English): Metal forming machinery -- Terminology
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: J62
Classification of International Standard: 25.120.10
Word Count Estimation: 80,861
Date of Issue: 2018-07-13
Date of Implementation: 2019-02-01
Regulation (derived from): National Standard Announcement No. 10 of 2018
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 36484-2018: Metal forming machinery -- Terminology

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Metalforming machinery--Terminology ICS 25.120.10 J62 National Standards of People's Republic of China Forging machinery terminology Published on.2018-07-13 Implementation of.2019-02-01 State market supervision and administration China National Standardization Administration issued

Foreword

This standard was drafted in accordance with the rules given in GB/T 1.1-2009. This standard was proposed by the China Machinery Industry Federation. This standard is under the jurisdiction of the National Forging Machinery Standardization Technical Committee (SAC/TC220). This standard was drafted. Jinan Foundry & Forging Machinery Research Institute Co., Ltd., Yangli Group Co., Ltd., Xiamen Zheng Liming Metallurgy Machine Machinery Co., Ltd., Qingdao Qing Forging Machinery Co., Ltd., Fujian Province Xuan Technology Co., Ltd. The main drafters of this standard. Ma Liqiang, Zhong Taisheng, Huang Yizhong, Wu Dasheng, Zhu Bin. Forging machinery terminology

1 Scope

This standard defines the basic terminology of forging machinery, mechanical presses, hydraulic presses, hammers, forging machines, automatic forging presses, shearing machines, bending machines Terms and definitions for mechanical and bending correction machines, integrated forming machines, and functional components. This standard applies to forging machinery.

2 Normative references

The following documents are indispensable for the application of this document. For dated references, only dated versions apply to this article. Pieces. For undated references, the latest edition (including all amendments) applies to this document. GB/T 8541 forging terminology

3 basic terminology

3.1 Forging machinery basic terminology 3.1.1 Forging machinery metalformingmachinery Forming machine Applying an external force to the material to cause plastic deformation, change size or shape, and improve performance for manufacturing mechanical parts, workpieces, or blanks Forming machine. Note. Refer to GB/T 28761 for the specific model and name. 3.1.2 Mechanical press mechnicalpress The mechanical drive drives the press of the working mechanism, and the working mechanism is generally composed of a crank, a connecting rod, a slider and the like. 3.1.3 Hydraulic press hydraulicpress The general name of a press that uses a hydraulic drive to drive a slider or a working part is divided into a hydraulic press and a hydraulic press depending on the medium. 3.1.4 Automatic forging press automaticmetalformingmachinery A forging machine that can automatically complete the work cycle and shape the product. 3.1.5 Hammer hammer Using the kinetic energy accumulated in the working part (the falling part or the moving part) to strike the forging at the lower stroke to make the forging a plastic change The general name of the shape of the forging machine. 3.1.6 Forging machine forgingmachinery A machine forging forgings of a certain geometric size, shape and quality. 3.1.7 Cutting machine shearingmachinery A machine that separates materials by shearing. According to the transmission form, it is divided into mechanical and hydraulic. 3.1.8 Bending machinery pressbrakeandflangingmachine A machine that bends a sheet or profile with the relative motion of the mold. 3.1.9 Bending machinery bendingmachinery A machine that bends a blank or a part into a specified shape by means of a mechanical mechanism by means of a working mechanism or a work tool. 3.1.10 Correction (correction) mechanical straighteningmachinery A machine that corrects a formed blank or article to an accurate shape and size. 3.1.11 Automatic production line automaticproductionline The automatic transfer device and the control system are connected by a plurality of main engines and auxiliary machines according to the process flow, and an automatic working work line is realized. 3.1.12 Function functionunits A component that implements a function of a forging machine. 3.1.13 Ordinary forging machinery generalmetalformingmachinery Ordinary forming machine Forging machinery with precision and performance in accordance with the general requirements specified in the product standards. 3.1.14 Precision forging machinery precisionmetalformingmachinery Precision forming machine Forging machinery with precision and performance in accordance with the precision grade requirements specified in the product standards. 3.1.15 Super precision forging machinery superprecisionmetalformingmachinery Ultra-precision forming machine Forging machinery with precision and performance in accordance with the ultra-precision grade requirements specified in the product standards. 3.1.16 CNC forging machinery numerical controledmetalformingmachinery CNC forming machine tool NCmetalformingmachinery A program pre-programmed according to the processing requirements, a machine that performs a digital processing command by the control system to forge the workpiece. 3.1.17 Economical NC forging machinery economicalNCmetalformingmachinery CNC forging machine with simple CNC system. 3.1.18 High-grade CNC forging machinery highlevelNCmetalformingmachinery CNC forging machine with high performance CNC system. 3.1.19 Machining center metalformingcentres A CNC forging machine that can automatically change molds and realize automatic machining. 3.1.20 Compound forging machine metalformingmachineryforcompositemachining A CNC forging machine capable of performing a variety of machining processes with two or more different types of forging work modes. 3.1.21 Flexible manufacturing (processing) unit flexiblemanufactingcels The production equipment consists of one or more CNC forging machines or machining centers that can automatically process workpieces in different processes. 3.1.22 Flexible manufacturing (processing) system flexiblemanufactingsystems It consists of one or more CNC forging machines or machining centers that can automatically process different workpiece systems. 3.1.23 Automated automation Using some devices and machines instead of manual operations, the production process is sequentially organized in an automatic processing, automatic detection, automatic Control, automatic adjustment and automatic management in a unified system. 3.1.24 Forged automatic line automaticforgingline The automatic transfer device and the control system are connected by a plurality of main engines and auxiliary machines according to the forging process to realize the automatic working forging Production line. 3.1.25 Stamping automatic line automatedpressline;automaticpressline The automatic transfer device and the control system are connected by a plurality of main engines and auxiliary machines according to the stamping process flow, and the automatic working punching is realized. Production line. 3.2 Forging machinery operation terminology 3.2.1 Inch inching An operating specification that allows the actuator to obtain intermittent small fixed displacements (eg, for mold adjustment purposes). 3.2.2 Jog crawl Pressing the start button, the actuator moves according to the set path, releases the start button, and the actuator stops immediately. 3.2.3 Micromotion micromoving A manual signal generator is used to generate a pulse signal to achieve an operational specification of the actuator stroke. 3.2.4 Single stroke singlestroke Once started, the actuator only completes one work cycle and stops at the set position. 3.2.5 Continuous stroke continuousstroke After startup, the actuator performs a continuous duty cycle until it stops. 3.2.6 Set point stop stopatset-point Let the actuator stop at the set position. 3.2.7 Emergency stop emergencystop Emergency stop Stop the actuator with an emergency stop. 3.2.8 Two-hand control; two-handoperation The operator must operate both hands at the same time, the actuator can start the stroke, and the one-hand operation cannot be started. 3.2.9 One-hand operation Operate the start button with one hand. 3.2.10 Pedal operation pedalbrakeoperation Operate with a foot switch or a foot lever. 3.2.11 Multi-operator operation Two or more people work together. 3.2.12 Manual manual A single action that is done directly by hand. 3.2.13 Semi-automatic semi-automatic Can complete the action of a work cycle (excluding loading and unloading, etc.). 3.2.14 Automatic automaticcontrol Complete the continuous work cycle (including loading and unloading, etc.) according to the predetermined procedure. 3.2.15 Pressure holding The pressure of the hydraulic system is maintained for a specified period of time. 3.2.16 Emergency return emergencyreturn The action of making the actuator return quickly. 3.2.17 Mobile workbench moves out of the scopeofmovingbolster The action of moving from the working position (upward) to the mold position. 3.2.18 Mobile workbench reset resetofmovingbolster The action from the mold position to the work position (before the descent). 3.3 Process Terminology Forging process terminology is given in GB/T 8541. For ease of use, some of the terms and definitions in GB/T 8541 are repeated below. 3.3.1 Forgingandstamping Applying an external force to the blank to plastically deform, change size, shape and improve performance for the manufacture of mechanical parts, workpieces or blanks Forming processing method. It is a general term for forging and stamping. 3.3.2 Metal plastic processing; metaltechnologyofplasticity Using the plasticity of the metal to change its shape, size and performance, and to obtain the processing of profiles, bars, plates, wires or forgings law. It includes forging, stamping, extrusion, rolling, drawing, and the like. 3.3.3 Chiplessworking; chiplessmachining The metal blank is directly obtained by casting, forging or other metal processing methods, and the cutting process is not required. 3.3.4 Metal rotary machining rotarymetalworking A plastic working method in which only the metal billet is rotated or only the tool is rotated or both are rotated. Note. including vertical rolling, cross rolling, pendulum rolling, cross wedge rolling, roll bending, roll forging, spinning and so on. 3.3.5 Sheet forming sheetforming A method of plastic working using a sheet material, a thin-walled tube, a thin profile, or the like as a raw material. 3.3.6 Volume forming A method of plastic working using a bar or an ingot as a raw material. 3.3.7 Hot forging hotforging A forging process performed above the metal recrystallization temperature. 3.3.8 Warm forging warmforging In general, it refers to a forging process carried out at temperatures above and below the recrystallization temperature. 3.3.9 Cold forged coldforging A forging process performed at room temperature. Including cold extrusion, cold heading, cold stamping, etc. 3.3.10 Isothermal forging isothermalforging The forging process in which the temperature is kept constant throughout the forging process. This method requires heating both the mold and the blank to the forging temperature. 3.3.11 Forming forming The process of plastically deforming a metal material to obtain an article of the desired shape and size. 3.3.12 Hot forming hotforming The forming process of the metal above the recrystallization temperature. 3.3.13 Warm forming warmforming In general, it refers to the forming process of the metallic material at temperatures above and below the recrystallization temperature. 3.3.14 Cold forming coldforming A forming process in which a metallic material is carried out at room temperature. 3.3.15 Forging forging Under the action of the external load and the tool (mold), the blank and the ingot are locally or completely plastically deformed to obtain a certain geometric shape and shape. Processing method for forgings of quality and quality. 3.3.16 Stamping; pressing; sheetforming A process for separating or forming a sheet to obtain a part. 3.3.17 Rolling roling Metallic materials (or non-metallic materials) produce continuous plastic deformation under the pressure of the rotating rolls to obtain the required size, shape, The performance method can be divided into vertical rolling, cross rolling and cross rolling according to the relationship between the roll axis and the rolling line and the roll turning. 3.3.18 Squeeze extrusion The billet is extruded from the orifice or slit of the mold under the action of three-direction compressive stress in the closed cavity, so that the cross section changes and becomes required. The processing method of the product. 3.3.19 Upsetting heading; upsetting Pressurization or hammering in the axial direction of the blank causes local tough deformation of the metal. 3.3.20 Pull drawing The blank is pulled out through the die hole under the action of the traction force to cause plastic deformation to obtain a process in which the cross section becomes smaller and the length is increased. 3.3.21 Spinning metalspinning A process for processing a metal hollow rotary body member. Spinning tool and blank in spinning of spinning mold or spinning tool around blank Relative to the feed, the billet is pressed and produces continuous local deformation or separation, which includes ordinary spinning, thinning spinning and separating spinning. 3.3.22 Roll forging rolforging The workpiece or blank is manufactured by a roll forging process. 3.3.23 Free forging open-dieforging; flatdieforging; freeforging Use only a simple versatile tool or directly deform the blank between the upper and lower anvils of the forging equipment to achieve the desired geometry and interior The method of quality forgings. 3.3.24 Die forging; closed-dieforging; dropforging A forging method of a forging is obtained by deforming a blank by a mold. 3.3.25 Multi-directional forging multi-ramforging;coredforging A forging method that simultaneously loads in multiple directions. It is carried out in a closed mold having a plurality of parting faces. 3.3.26 Precision forging precisionforging; net-shapeforging One of the forging methods. The high precision of the forgings does not require or require a small amount of machining. 3.3.27 Sizing The final process of machining a part into a precise size in a mold. 3.3.28 Blanking blanking A stamping method that uses a die to separate the sheet from the blank in a closed contour. 3.3.29 Precision blanking fineblanking;precisionblanking The blanking ring is used to make the blanking zone of the sheet under the action of three-way compressive stress, suppressing the occurrence of shear cracking and realizing the blanking of plastic deformation separation. method. 3.3.30 Blanking blanking A stamping method for obtaining a part or a blank of a certain shape by punching. 3.3.31 Punching punching; piercing The material in the stamping blank is separated by a closed contour to obtain a stamping method for the perforated article. 3.3.32 Shearing shearing The metal material is cut by a blade. 3.3.33 Nipple nibbling The stamping or forming is performed on the sheet along a predetermined route by means of a fast reciprocating punch. 3.3.34 Bending A method of forming a sheet, a profile or a tube into a part having a certain curvature and angle under the action of a bending moment. 3.3.35 Stretchbending;tensilebending A method in which a blank is bent along a mold in a tensioned state. 3.3.36 Roll bending The sheet material is subjected to the frictional force when the roller shaft rotates, and the method of plastic bending is continuously entered between the roller shafts. 3.3.37 Roll forming (roller shape) rolforming The strip is sequentially bent and formed by an array of rollers having a groove, and finally a method for processing a desired shape is obtained. 3.3.38 Round edge edgering; edgecoiling; curling A method of forming a sheet or profile end that is nearly closed and that bends the sheet or profile into a circular workpiece. 3.3.39 Straight line bending, bending straightbending A bending process in which a slab is linearly formed by a V-shaped or U-shaped punch and a die. 3.3.40 Straightening straightening A plastic working method for turning a flexed sheet, profile, and tube into a flat state. Common straightening methods include roll straightening and tension correction. Straight, pressure straightening, etc. 3.3.41 Deep drawing Drawing Applying tensile or compressive stress to the blank using a rigid mold to form the slab blank into a cylindrical or conical shape with or without flanges Pieces. The processing method is basically the same thickness. 3.3.42 Neckline necking A method of pressurizing the ends of a tubular member or a hollow member to reduce its radial size. 3.3.43 Imprinting coining The end face of the die is extruded into the slab, so that part or all of the surface of the slab is pressed, and the thickness is changed to fill the cavity to form a pattern, a groove or a word. Forming method of the character. 3.3.44 Distorted twisting A method of forming a part of a stamped part into a certain angle under the action of a torque. 3.3.45 Flaring expansion;flaring A method of pressurizing the ends of a tubular member or a hollow member to expand its radial dimension. 3.3.46 Bulging A method of forming a desired part by plastically deforming a sheet or a hollow billet under the action of a high-pressure liquid or gas and a mold. 3.3.47 Plastic sizing A method of correcting a formed article to an accurate shape and size. 3.3.48 School (corrective) flattening; leveling Placing uneven blanks or parts between two smooth or stencil-shaped flat stencils to reverse the uneven parts Deformation to the bend to obtain a method of processing a high flatness part or article. 3.3.49 Multi-roller (correction) flatrolering Passing the sheet through a number of staggered rolls, resulting in repeated bending deformation, resulting in processing of highly flat parts or articles method. 3.3.50 Rally school flattening; stretcher(stretch)leveling;stretcherstraightening A method of making the sheet flat by a stretching process. 3.3.51 Rolling school (correction) flat temperroling; rolleveling; skinpassing; pinchpassing The sheet material is stretched in a small amount by cold rolling to obtain a method for processing a high flatness part or article. 3.3.52 Stretchforming The edge of the sheet is clamped by the jaws, and the sheet is pulled and formed along the punch by the relative movement of the punch and the jaw. 3.3.53 Explosive forming A method of plastically deforming a billet through different media by utilizing a high-energy shock wave generated when an explosive is exploded. 3.3.54 Electro-hydraulic forming A method of plastically deforming a billet by using a high-energy shock wave generated during high-voltage discharge in a liquid medium. 3.3.55 Electromagnetic forming A method in which a magnetic field generated by a current is passed through a coil, and a magnetic force acts on the blank to plastically deform the workpiece. 3.3.56 Sheet hydroforming sheethydraulicforming A method in which a liquid (water or oil) is used as a pressure transmitting medium to cause plastic deformation of a sheet material in a mold shape. 3.3.57 Pneumatic forming Using high-plasticity and low-flow stress (deformation resistance) characteristics of certain materials under specific conditions, low-pressure gas can be used as a force transmission. 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