12 Years Manufacturer 14″ C-clamp Locking Pliers for Ottawa
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Bear "Customer first, Quality first" in mind, we work closely with our customers and provide them with efficient and professional services for 12 Years Manufacturer 14″ C-clamp Locking Pliers for Ottawa, If you have any comments about our company or products, please feel free to contact us, your coming mail will be highly appreciated.
Basic Information
■Model Number: RL-DLQ020
Additional Information
■Material: A3# steel (Q235) or 45# steel
■Size: 14”
■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.
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to purchase Eyelet Plier and Eyelet log on to www.chomelcraft.com
This video demonstrates an automated micromanipulation technique using which a cell is indirectly pushed by a silica bead actuated by an optical trap. The actuated bead pushes on an intermediate bead that is in direct contact with the cell, causing it to move. This manipulation scheme ensures that the cell does not come in proximity of a laser spot and thereby minimizes photo-damage. The micromanipulation planning strategy is based on motion maneuvers, namely, push, align, and backup. The developed feedback planner combines these motion maneuvers depending upon the ensemble configuration (made up of the optically actuated bead, intermediate bead, and the cell). We have developed a simplified motion model to simulate indirect pushing operation and identified parameters of measurement noise using physical experiments. We have developed an optimization based approach for automated tuning of parameters of the planner to enhance its robustness.
