Revision as of 06:10, 5 September 2011

Hydraulic Motor
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Overview

The Global Village Construction Set
Nickel-Iron Battery

As the Hydraulic Motor forms a backbone powering many GVCS technologies, local fabrication of the technology enables a number of opportunities.

Maximum Temperature

Design should keep fluid temperatures below 82 C (180 F). Higher temperatures damage seals, and exceed fluid viscosity limits, damaging components.

Hydraulic Oil Cooler Design of hydraulic cooler should be able to dissipate 30% of system heat

@@ Line 6: / Line 6: @@
 =Research=
+===Design Notes===
 '''Maximum Temperature'''
-Fluid temperatures above 82 C (180 F) damage seals, and exceed fluid viscosity limits. Designing to keep temperatures below this limit is advised.
+*Design should keep fluid temperatures below 82 C (180 F). Higher temperatures damage seals, and exceed fluid viscosity limits, damaging components.
+'''Hydraulic Oil Cooler'''
+Design of hydraulic cooler should be able to dissipate 30% of system heat
 =See Also=

The Global Village Construction Set
Habitat	CEB Press	Cement Mixer	Sawmill	Bulldozer	Backhoe
Agriculture	Tractor	Seeder	Hay Rake	Well-Drilling Rig
	Microtractor	Soil Pulverizer	Spader	Hay Cutter	Trencher
	Bakery Oven	Dairy Milker	Microcombine	Baler
Industry	Multimachine	Ironworker	Laser Cutter	Welder	Plasma Cutter
	CNC Torch Table	Metal Roller	Rod and Wire Mill	Press Forge	Universal Rotor
	3D Printer	3D Scanner	CNC Circuit Mill	Industrial Robot	Chipper Hammermill
	Drill Press	Induction Furnace
Energy	Power Cube	Gasifier Burner	Solar Concentrator	Electric Motor Generator	Hydraulic Motor
	Steam Engine	Heat Exchanger	Wind Turbine	Pelletizer	Universal Power Supply
	Nickel-Iron Battery
Materials	Aluminum Extractor	Bioplastic Extruder
Transportation	Car	Truck

Key	Design	Planning	Prototype	Almost done	Full Release