High Performance Streering Knuckle Static Mold Plate to Sydney Factory
Company Core Philosophy
The company is specialized in casting mould technology design, tooling development, mould making,gravity casting aluminum alloy products, machining service as a whole, and has 36 seniorr&dengineers. 20 years experience in professional mould making.Strong technical team with certain research and development capabilities.Full machinery focus on quality and after-sales service.
Payment & Delivery
Payment Terms: 30% for deposit, 70% before shipment.
Package Details: usually use the standard 1200*800mm wood pallet, but can customized packaging according to the different products.
Delivery： 45 days after order confirmation.
There are 4 workshops in the company which including tooling workshop, casting workshop , machining workshop ,cleaning workshop and one full-equipped laboratory.
China Foundry Expo
Participate in China Foundry Expo every year.
Q:Plant Maturity – Years in service?
Q:Project Management is existed for new production?
Q:Ownership – Main Share Holders?
Q:Export License and/ or Experience?
Q:Products Development time?
Q:Products Cycle time ?
We stick to our enterprise spirit of "Quality, Efficiency, Innovation and Integrity". We aim to create more value for our customers with our rich resources, advanced machinery, experienced workers and excellent services for High Performance Streering Knuckle Static Mold Plate to Sydney Factory, We always welcome new and old customers presents us with valuable advice and proposals for cooperation, let us grow and develop together, and to contribute to our community and staff!
For more information about Professor Shankar’s book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu.
Fundamentals of Physics (PHYS 200)
Part II of Rotations. The lecture begins with an explanation of the Parallel Axis Theorem and how it is applied in problems concerning rotation of rigid bodies. The moment of inertia of a disk is discussed as a demonstration of the theorem. Angular momentum and angular velocity are examined in a variety of problems.
00:00 – Chapter 1. Review and Derive the Parallel Axis Theorem
16:27 – Chapter 2. For System of Masses: Derive KEtotal = ½ MV2 + ½ ICM2
27:55 – Chapter 3. Derive KEtotal in Terms of Equivalent Rotation about Stationary Point
38:40 – Chapter 4. Effect of Rotational Kinetic Energy on Translational Motion for No Skid
43:41 – Chapter 5. Example Problem: Torque on a Disk
49:30 – Chapter 6. Advanced Example Problem: Pulley Rotating and Translating
01:02:14 – Chapter 7. Example Problem: Systems with Angular Moment Conserved
01:09:09 – Chapter 8. Application: Angular Momentum Changes for Spinning Ballerina
Complete course materials are available at the Yale Online website: online.yale.edu
This course was recorded in Fall 2006.