Basic Calculations: Difference between revisions

Revision as of 01:59, 9 August 2013

Scaling Calculations are calculations that also consider scalability. These calculations include all relevant physical, mechanical, fluid, electrical, chemical, thermal, static, dynamic, aerodynamic, acoustic, optical, hydrological, nuclear, structural, and other properties that allow a machine to be effective for a particular purpose. Scalability is emphasized because a single design should be adaptable to different scales of operation via Intensive and Extensive Scalability. Calculations include both parameters and calculations based on these parameters.

The typical calculations for consideration are:

Weight
Cost
Expected lifetime
Basics Statics calculations according to Basic Statics Calculations Procedure
Expected maintenance cost according to Maintenance Cost Template
Performance/power/speed/lifetime/lift/etc.
Precision calculations - what precision of motion is achieved in devices
Tolerancing requirements
Weight and center of gravity calculations
Range of motion
Hydraulic fluid flow and pressure
CAE analysis for structural failure, fatigue, deformation, crash testing, abrasion, thermal properties, and others
Basic static loads analysis of mechanical devices
Rotation speeds
Bending forces
Shear strength limits
Thermal losses
Geometrical optics
Torque calculations
Rotational inertia
Basic force calculations
EMF calculations
Thermal mass calculations
Combustion calculations
Embodied energy calculations
etc.

These calculations should be performed for all critical components of machines, even though the aim is not Value Engineering. In the case over-building of components for purposes of lifetime design, calculations are relevant for providing accurate assessment of safety factors and performance expectations independent of empirical performance data.

A list of desired calculations or data points should be produced for each machine. Note: a spreadsheet or education page should be included to give a crash course on each calculation for the benefit of a novice who has a working knowledge of secondary-level

@@ Line 1: / Line 1: @@
-Basic calculations should include:
+Scaling Calculations are calculations that also consider scalability. These calculations include all relevant physical, mechanical, fluid, electrical, chemical, thermal, static, dynamic, aerodynamic, acoustic, optical, hydrological, nuclear, structural, and other properties that allow a machine to be effective for a particular purpose. Scalability is emphasized because a single design should be adaptable to different scales of operation via [[Intensive and Extensive Scalability]]. Calculations include both parameters and calculations based on these parameters.
-*Weight
-*Cost
+The typical calculations for consideration are:
-*Expected lifetime
-*Basics Statics calculations according to [[Basic Statics Calculations Procedure]]
+#Weight
-*Expected maintenance cost according to [[Maintenance Cost Template]]
+#Cost
-*Performance/power/speed/lifetime/lift/etc.
+#Expected lifetime
+#Basics Statics calculations according to [[Basic Statics Calculations Procedure]]
+#Expected maintenance cost according to [[Maintenance Cost Template]]
+#Performance/power/speed/lifetime/lift/etc.
+#Precision calculations - what precision of motion is achieved in devices
+#Tolerancing requirements
+#Weight and center of gravity calculations
+#Range of motion
+#Hydraulic fluid flow and pressure
+#CAE analysis for structural failure, fatigue, deformation, crash testing, abrasion, thermal properties, and others
+#Basic static loads analysis of mechanical devices
+#Rotation speeds
+#Bending forces
+#Shear strength limits
+#Thermal losses
+#Geometrical optics
+#Torque calculations
+#Rotational inertia
+#Basic force calculations
+#EMF calculations
+#Thermal mass calculations
+#Combustion calculations
+#Embodied energy calculations
+#etc.
+These calculations should be performed for all critical components of machines, even though the aim is not [[Value Engineering]]. In the case  over-building of components for purposes of lifetime design, calculations are relevant for providing accurate assessment of safety factors and performance expectations independent of empirical performance data.
+A list of desired calculations or data points should be produced for each machine.
+Note: a spreadsheet or education page should be included to give a crash course on each calculation for the benefit of a novice who has a working knowledge of secondary-level

Basic Calculations: Difference between revisions

Revision as of 01:59, 9 August 2013

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