「workpiece」の共起表現一覧(1語右で並び替え)
該当件数 : 90件
| round to a point as to accurately position a | workpiece about an axis. |
| ends to accurately position a center-drilled | workpiece about an axis, either directly or by using a |
| The distance of the nozzle from the | workpiece affects the size of the machined area and th |
| refers to an inspection tool used to check a | workpiece against its allowed tolerances. |
| was thinned on the side in contact with the | workpiece, although this does not seem to show a great |
| The solvent condenses on the more frigid | workpiece and the now liquid solvent dissolves the gre |
| lvents will dissolve the contaminants on the | workpiece and remove them by dripping off the part. |
| so be used to form a strong bond between the | workpiece and a non-metallic component. |
| an abrasive slurry freely flows between the | workpiece and a vibrating tool. |
| ips reduce the length of contact between the | workpiece and the cutting tool, thus reducing friction |
| The tool never contacts the | workpiece and as a result the grinding pressure is rar |
| be equal or greater than the hardness of the | workpiece), and the viscosity of the slurry fluid. |
| f a peen has multiple wheels that circle the | workpiece and combine two similar or non-similar mater |
| The wheel and | workpiece are rotated in opposite directions, which cr |
| vaporized metal condenses on the product or | workpiece as a thin metallic film. |
| indle of a lathe and being used to support a | workpiece being driven by a carrier setup |
| They are designed so that the | workpiece can be mounted firmly, usually from undernea |
| d to travel across a fixed work piece or the | workpiece can be moved whilst the grind head stays in |
| The | workpiece can be reshaped without any contact from a t |
| ghtly towards the regulating wheel, with the | workpiece centerline above the centerlines of the regu |
| that involve the directional movement of the | workpiece, Conventional and Climb. |
| It can be determined how much the | workpiece distorted from the desired shape using a fin |
| rocesses where the tool does not contact the | workpiece; examples of this type of process include ED |
| Chips removed from the | workpiece fall through a cavity in front of the file. |
| ng device is custom made for each respective | workpiece for either manual or automated dipping. |
| Filing helps achieve | workpiece function by removing some excess material an |
| One | workpiece has a hole in it while the other has a boss |
| Unless a | workpiece has a taper machined onto it which perfectly |
| The | workpiece holder must allow an inclination of 3 to 5 d |
| The work-holding device is used to hold the | workpiece in place and keep it from moving or buckling |
| ng a spinning circular saw blade down onto a | workpiece in a short, controlled motion. |
| The clips are used to hold a light | workpiece in place while the joints allow the user to |
| e and the user applies that substrate to the | workpiece in question by lamination. |
| e current is delivered using contacts to the | workpiece instead of using induction. |
| they have two strokes; one stroke moves the | workpiece into the machine and the second heads the wo |
| The | workpiece is reshaped by high intensity pulsed magneti |
| aporized solvent in a closed space where the | workpiece is placed. |
| The | workpiece is broken down while the tool bends very sli |
| e finish and form are not critical, then the | workpiece is "spun on air"; no mandrel is used. |
| The rest of the | workpiece is measured from the face side with the next |
| If the | workpiece is moving the same direction as the tool rot |
| If the | workpiece is moving the opposite direction of the Tool |
| Then the | workpiece is mounted in the workholding device and imm |
| The | workpiece is placed on the top of the vacuum chamber, |
| In commercial impression-die forging the | workpiece is usually moved through a series of cavitie |
| iffer for all the methods but in general the | workpiece is pressed between the grinding head and the |
| If a | workpiece is too small to be machined in a vise withou |
| he gauging device is used to ensure that the | workpiece is being cut where it is supposed to be. |
| One side effect of bending the | workpiece is the wall thickness changes; the wall alon |
| Miter saws are inherently low hazard as the | workpiece is held stationary against a fence while the |
| Typically, the | workpiece is immersed in a temperature controlled bath |
| d either by moving the table (into which the | workpiece is attached), or by moving the tool. |
| sses, like three-roll-pushbending, shape the | workpiece kinematically, thus the bending contour is n |
| For example, a | workpiece may be required to have a specific outside d |
| run out (a variation in concentricity) of a | workpiece mounted in a four-jaw chuck. |
| In general, the | workpiece must be at least 10 mm (0.4 in) thick, while |
| The arc is maintained independently of the | workpiece or parts being welded. |
| Angle plates - assist in holding the | workpiece perpendicular to the table |
| vibrations that will transfer through to the | workpiece, reducing the quality of the finished workpi |
| d by moving the tool parallel to the axis of | workpiece rotation. |
| ant casting), it is simply easier to let the | workpiece sit stationary on a table while all needed m |
| mill, showing the large boring head and the | workpiece sitting on the table. |
| w of an abrasive media is extruded through a | workpiece, smoothing and finishing rough surfaces. |
| articles, or grains, into the surface of the | workpiece so that each particle cuts away a small bit |
| ial is moved against the milling tool or the | workpiece stays stationary while the arbor milling cut |
| In an electrically conductive | workpiece, such as steel, the main heating effect is r |
| In a ferromagnetic | workpiece, such as plastic doped with ceramic particle |
| ntially influenced by the temperature of the | workpiece surface. |
| ential barrier between the roll dies and the | workpiece surface. |
| the distance between the arc stream and the | workpiece surface. |
| ned as processes where the tool contacts the | workpiece surface; for example: grinding, turning, and |
| of different sizes can be used to support a | workpiece that doesn't have a 'flat' surface underneat |
| fter the deforming force is removed from the | workpiece, the workpiece springs back slightly. |
| One-way systems flow the media through the | workpiece, then it exits from the part. |
| The maximum | workpiece thickness that has ever been successfully we |
| nces in addition to the type of material and | workpiece thickness. |
| known as reducing or necking, allows a spun | workpiece to include reentrant geometries. |
| A way to fix the | workpiece to the surface so that it may be worked with |
| material placed in a vacuum chamber with the | workpiece to be coated. |
| lf has a damaged face, which could cause the | workpiece to be held insecurely. |
| to force a tool, called a punch, through the | workpiece to create a hole via shearing. |
| the melting point to finish the surface of a | workpiece to ensure better dimensional accuracy and su |
| n die and only the surface where the die and | workpiece touch will be sized. |
| When the | workpiece weighs several tons and towers over the work |
| lf until it is brought into proximity of the | workpiece where it ignites the main plasma cutting arc |
| Finally, the | workpiece, whether passivated or not, is dried. |
| This process produces a near net shape | workpiece, which means the final product is almost fin |
| excessive cold working of the surface of the | workpiece, which can also cause fatigue cracks. |
| These stages usually impart the | workpiece with generous bends and large fillets. |
| The | workpiece would then produce the punch and the die aft |
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