8 Years Manufacturer 5″ Backhand Round-Jaw Locking Pliers with Jackets for Frankfurt Factory
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To be the stage of realizing dreams of our employees! To build a happier, more united and more professional team! To reach a mutual benefit of our customers, suppliers, the society and ourselves for 8 Years Manufacturer 5″ Backhand Round-Jaw Locking Pliers with Jackets for Frankfurt Factory, If you are interested in any of our products or would like to discuss a customized order, please feel free to contact us.
Basic Information
■Model Number: RL-DLQ011
Additional Information
■Material: A3# steel (Q235) or 45# steel
■Size: 5”
■Surface Treatment: Nickel-plated, Zinc-plated, Black Oxide, Electrophoresis
■Heat Treatment: Optional
■Package: Blister Card, Suction Card, Tie Card, Double Blister Card
■OEM: Acceptable
■HS Code: 8203200000
■Samples: For FREE
■Delivery Time: Always 30 working days depending on the order quantity
■Packing: By standard cartons
Product Description
■Mainly used for clamping parts to rivet, weld, grind and so on, which is characterized by the powerful clamp force produced by the jaw. It can lock tight so that the parts won’t fetch away. Besides, jaws have a lot of levels to adjust for the use of different thickness of parts, and it also can be used as a wrench.
■Flexible using, long life and good tenacity.
■The screw tuning button can give the best clamp size easily.
Product Image
Aus der Restekiste / Out of the ScrapBox.
Optical tweezers are used for highly accurate manipulations of biological cells. However, the direct exposure of cells to focused laser beam may negatively influence their biological functions. In order to overcome this problem, we generate multiple optical traps to grab and move a 3D ensemble of inert particles such as silica microspheres to act as a reconfigurable gripper for a manipulated cell. The relative positions of the microspheres are important in order for the gripper to be robust against external environmental forces and the exposure of high intensity laser on the cell to be minimized. We developed a computational approach to perform modeling and synthesis of the gripper configurations that would ensure robust gripping as well as allow minimum exposure of laser on the cell.