Solidification Shrinkage < 0, 1 %
Solidification Shrinkage < 0, 5 %
Solidification Shrinkage < 1 %
Solidification Shrinkage is < 5 %
Maximum Solidification Shrinkage ≥ 0, 1 %
Maximum Solidification Shrinkage ≥ 0, 5 %
Maximum Solidification Shrinkage ≥ 1 %
Maximum Solidification Shrinkage ≥ 5 %
Water Absorbtion < 0, 1 %
Water Absorbtion < 0, 5 %
Water Absorbtion < 1 %
Water Absorbtion < 5 %
Water Absorbtion < 10 %
Water Absorbtion < 50 %
Maximum Water Absorption ≥ 0, 1 %
Maximum Water Absorption ≥ 0, 5 %
Maximum Water Absorption ≥ 1 %
Maximum Water Absorption ≥ 5 %
Maximum Water Absorption ≥ 10 %
Maximum Water Absorption ≥ 50 %

Breakdown Potential < 1 kV/mm
Breakdown Potential < 5 kV/mm
Breakdown Potential < 10 kV/mm
Breakdown Potential < 50 kV/mm
Breakdown Potential < 100 kV/mm
Breakdown Potential < 500 kV/mm
Breakdown Potential < 1.000 kV/mm
Breakdown Potential < 5.000 kV/mm
Breakdown Potential < 10.000 kV/mm
Breakdown Potential < 50.000 kV/mm
Maximum Breakdown Potential ≥ 1 kV/mm
Maximum Breakdown Potential ≥ 5 kV/mm
Maximum Breakdown Potential ≥ 10 kV/mm
Maximum Breakdown Potential ≥ 50 kV/mm
Maximum Breakdown Potential ≥ 100 kV/mm
Maximum Breakdown Potential ≥ 500 kV/mm
Maximum Breakdown Potential ≥ 1.000 kV/mm
Maximum Breakdown Potential ≥ 5.000 kV/mm
Maximum Breakdown Potential ≥ 10.000 kV/mm
Maximum Breakdown Potential ≥ 50.000 kV/mm
Dielectric Loss Factor < 0, 01 %
Dielectric Loss Factor < 0, 05 %
Dielectric Loss Factor < 0, 1 %
Dielectric Loss Factor < 1 %
Dielectric Loss Factor < 5 %
Dielectric Loss Factor < 10 %
Dielectric Loss Factor < 50 %
Maximum Dielectric Loss Factor ≥ 0, 01 %
Maximum Dielectric Loss Factor ≥ 0, 05 %
Maximum Dielectric Loss Factor ≥ 0, 1 %
Maximum Dielectric Loss Factor ≥ 0, 5 %
Maximum Dielectric Loss Factor ≥ 1 %
Maximum Dielectric Loss Factor ≥ 5 %
Maximum Dielectric Loss Factor ≥ 10 %
Electrochemical Potential < -1 V
Electrochemical Potential < -0, 1 V
Electrochemical Potential < 0, 1 V
Electrochemical Potential < 1 V
Electrochemical Potential < 10 V
Maximum Electrochemical Potential ≥ -1 V
Maximum Electrochemical Potential ≥ -0, 1 V
Maximum Electrochemical Potential ≥ 0, 1 V
Maximum Electrochemical Potential ≥ 1 V
Maximum Electrochemical Potential ≥ 10 V
Resistivity < 0, 01 Ohm.mm²/m
Resistivity < 0, 1 Ohm.mm²/m
Resistivity < 1 Ohm.mm²/m
Resistivity < 1e+10 Ohm.mm²/m
Resistivity < 1e+15 Ohm.mm²/m
Resistivity < 1e+20 Ohm.mm²/m
Maximum Resistivity ≥ 0, 01 Ohm.mm²/m
Maximum Resistivity ≥ 0, 1 Ohm.mm²/m
Maximum Resistivity ≥ 1 Ohm.mm²/m
Maximum Resistivity ≥ 1e+10 Ohm.mm²/m
Maximum Resistivity ≥ 1e+15 Ohm.mm²/m
Maximum Resistivity ≥ 1e+20 Ohm.mm²/m

Bending Strength < 0, 1 MPa
Bending Strength < 1 MPa
Bending Strength < 10 Mpa
Bending Strength < 100 Mpa
Bending Strength < 1.000 Mpa
Maximum Bending Strength ≥ 0, 1 MPa
Maximum Bending Strength ≥ 1 MPa
Maximum Bending Strength ≥ 10 MPa
Maximum Bending Strength ≥ 100 MPa
Maximum Bending Strength ≥ 1.000 MPa
Compressive strength < 0, 1 MPa
Compressive strength < 1 MPa
Compressive strength < 10 MPa
Compressive strength < 100 MPa
Compressive strength < 1.000 MPa
Maximum compressive strength ≥ 0, 1 MPa
Maximum compressive strength ≥ 1 MPa
Maximum compressive strength ≥ 10 MPa
Maximum compressive strength ≥ 100 MPa
Maximum compressive strength ≥ 1.000 MPa
Creep Strength < 100 MPa
Creep Strength < 500 MPa
Creep Strength < 1.000 MPa
Creep Strength < 5.000 MPa
Maximum Creep Strength ≥ 100 MPa
Maximum Creep Strength ≥ 500 MPa
Maximum Creep Strength ≥ 1.000 MPa
Maximum Creep Strength ≥ 5.000 MPa
Density < 1 kg/m³
Density < 5 kg/m³
Density < 10 kg/m³
Density < 50 kg/m³
Density < 100 kg/m³
Density < 500 kg/m³
Density < 1.000 kg/m³
Density < 5.000 kg/m³
Density < 10.000 kg/m³
Maximum Density ≥ 1 kg/m³
Maximum Density ≥ 5 kg/m³
Maximum Density ≥ 10 kg/m³
Maximum Density ≥ 50 kg/m³
Maximum Density ≥ 100 kg/m³
Maximum Density ≥ 500 kg/m³
Maximum Density ≥ 1.000 kg/m³
Maximum Density ≥ 5.000 kg/m³
Maximum Density ≥ 10.000 kg/m³
Elongation < 1 %
Elongation < 5 %
Elongation < 10 %
Elongation < 50 %
Elongation < 100 %
Elongation < 500 %
Elongation < 1000 %
Maximum elongation ≥ 1 %
Maximum elongation ≥ 5 %
Maximum elongation ≥ 10 %
Maximum elongation ≥ 50 %
Maximum elongation ≥ 100 %
Maximum elongation ≥ 500 %
Maximum elongation ≥ 1000 %
Fatigue failure < 50 Mpa
Fatigue failure < 100 Mpa
Fatigue failure < 500 Mpa
Fatigue failure < 1000 Mpa
Maximum fatigue failure ≥ 50 Mpa
Maximum fatigue failure ≥ 100 Mpa
Maximum fatigue failure ≥ 500 Mpa
Maximum fatigue failure ≥ 1000 Mpa
Friction coefficient < 0, 1
Friction coefficient < 0, 2
Friction coefficient < 0, 3
Friction coefficient < 0, 4
Friction coefficient < 0, 5
Maximum friction coefficient ≥ 0, 1
Maximum friction coefficient ≥ 0, 2
Maximum friction coefficient ≥ 0, 3
Maximum friction coefficient ≥ 0, 4
Maximum friction coefficient ≥ 0, 5
Impact strength < 0, 1 J/cm
Impact strength < 1 J/cm
Impact strength < 10 J/cm
Impact strength < 100 J/cm
Impact strength < 1.000 J/cm
Maximum impact strength ≥ 0, 1 J/cm
Maximum impact strength ≥ 1 J/cm
Maximum impact strength ≥ 10 J/cm
Maximum impact strength ≥ 100 J/cm
Maximum impact strength ≥ 1.000 J/cm
Shear modulus < 100 MPa
Shear modulus < 500 MPa
Shear modulus < 1.000 MPa
Shear modulus < 5.000 MPa
Shear modulus < 10.000 MPa
Shear modulus < 50.000 MPa
Maximum shear modulus ≥ 100 Mpa
Maximum shear modulus ≥ 500 Mpa
Maximum shear modulus ≥ 1.000 Mpa
Maximum shear modulus ≥ 5.000 Mpa
Maximum shear modulus ≥ 10.000 Mpa
Maximum shear modulus ≥ 50.000 Mpa
Tensile strength < 1 Mpa
Tensile strength < 10 Mpa
Tensile strength < 100 Mpa
Tensile strength < 1.000 Mpa
Maximum tensile strength ≥ 1 Mpa
Maximum tensile strength ≥ 10 Mpa
Maximum tensile strength ≥ 100 Mpa
Maximum tensile strength ≥ 1.000 Mpa
Yield strength < 50 Mpa
Yield strength < 100 Mpa
Yield strength < 500 Mpa
Yield strength < 1.000 Mpa
Maximum yield strength ≥ 50 Mpa
Maximum yield strength ≥ 100 Mpa
Maximum yield strength ≥ 500 Mpa
Maximum yield strength ≥ 1.000 Mpa
Young's modulus < 5.000 Mpa
Young's modulus < 10.000 Mpa
Young's modulus < 50.000 Mpa
Young's modulus < 100.000 Mpa
Young's modulus < 150.000 Mpa
Young's modulus < 200.000 Mpa
Young's modulus < 250.000 Mpa
Young's modulus < 300.000 Mpa
Young's modulus < 350.000 Mpa
Young's modulus < 400.000 Mpa
Maximum Young's modulus ≥ 5.000 Mpa
Maximum Young's modulus ≥ 10.000 Mpa
Maximum Young's modulus ≥ 50.000 Mpa
Maximum Young's modulus ≥ 100.000 Mpa
Maximum Young's modulus ≥ 150.000 Mpa
Maximum Young's modulus ≥ 200.000 Mpa
Maximum Young's modulus ≥ 250.000 Mpa
Maximum Young's modulus ≥ 300.000 Mpa
Maximum Young's modulus ≥ 350.000 Mpa
Maximum Young's modulus ≥ 400.000 Mpa

Refractive index < 1, 2
Refractive index < 1, 4
Refractive index < 1, 6
Maximum refractive index ≥ 1, 2
Maximum refractive index ≥ 1, 4
Maximum refractive index ≥ 1, 6

Glass temperature 500 °C
Maximum service temperature > 1.000 °C
Specific heat ific heat ≥ 1 Jkg.K
Maximum specific heat ≥ 10 Jkg.K
Maximum specific heat ≥ 100 Jkg.K
Maximum specific heat ≥ 1.000 Jkg.K
Maximum specific heat ≥ 10.000 Jkg.K
Thermal conductivity aximum thermal conductivity ≥ 10 Wm.K
Maximum thermal conductivity ≥ 100 Wm.K
Maximum thermal conductivity ≥ 1.000 Wm.K
Thermal expansion 100e-6K
Maximum thermal expansion ≥ -1e-6K
Maximum thermal expansion ≥ 1e-6K
Maximum thermal expansion ≥ 5e-6K
Maximum thermal expansion ≥ 10e-6K
Maximum thermal expansion ≥ 50e-6K
Maximum thermal expansion ≥ 100e-6K
Maximum melting temperature ≥ 1.000 °C
Minimum service temperature < -100 °C
Minimum service temperature < -50 °C
Minimum service temperature < -10 °C
Minimum service temperature < 10 °C
Minimum service temperature < 50 °C
Minimum service temperature < 100 °C
Maximum service temperature > 50 °C
Maximum service temperature > 100 °C
Maximum service temperature > 500 °C
Maximum service temperature > 1.000 °C
Specific heat < 1 J/kg.K
Specific heat < 10 J/kg.K
Specific heat < 100 J/kg.K
Specific heat < 1.000 J/kg.K
Specific heat < 10.000 J/kg.K
Maximum specific heat ≥ 1 J/kg.K
Maximum specific heat ≥ 10 J/kg.K
Maximum specific heat ≥ 100 J/kg.K
Maximum specific heat ≥ 1.000 J/kg.K
Maximum specific heat ≥ 10.000 J/kg.K
Thermal conductivity < 0, 1 W/m.K
Thermal conductivity < 1 W/m.K
Thermal conductivity < 10 W/m.K
Thermal conductivity < 100 W/m.K
Maximum thermal conductivity ≥ 0, 1 W/m.K
Maximum thermal conductivity ≥ 1 W/m.K
Maximum thermal conductivity ≥ 10 W/m.K
Maximum thermal conductivity ≥ 100 W/m.K
Maximum thermal conductivity ≥ 1.000 W/m.K
Thermal expansion < -1e-6/K
Thermal expansion < 1e-6/K
Thermal expansion < 5e-6/K
Thermal expansion < 10e-6/K
Thermal expansion < 50e-6/K
Thermal expansion < 100e-6/K
Maximum thermal expansion ≥ -1e-6/K
Maximum thermal expansion ≥ 1e-6/K
Maximum thermal expansion ≥ 5e-6/K
Maximum thermal expansion ≥ 10e-6/K
Maximum thermal expansion ≥ 50e-6/K
Maximum thermal expansion ≥ 100e-6/K

Acidic Refractories
Advanced Ceramic
Agro-based Polymer
Alloy Steel
Alumina Ceramic
Aluminium Alloy
Alumiunium Oxide Ceramic
Amourphous Ceramic
Animal Fiber
Austenitic Chromium–nickel Steel
Austenitic Ferritic Stainless Steel
Austenitic Stainless Steel
Basic Refractories
Basic Steel
Blackheart Malleable Iron
Carbide Ceramic
Carbon Fiber
Carbon Steel
Cardboard
Cast Aluminium
Cast Copper
Cast Iron
Cast Magnesium
Cast Steel
Cellulose
Ceramic
Ceramic Glass
Ceramic Matrix Composite
Chromium–vanadium Steel
Class 1 Wood very durable
Class 2 Wood durable
Class 3 Wood moderatly durable
Class 4 Wood slightly durable
Class 5 Wood not durable
CMC
Collagen
Commodity Polymer
Composite
Concrete
Construction Ceramic
Construction Steel
Copper Alloy
Copper-based Super-alloy
Crosslinked Polymer
Crystalline Ceramic
Decor Glass
Ductile Cast Iron
Ductile Iron
Duplex Steel
Elastomer
Engineering Ceramic
Engineering Polymer
Ferro-based Super-alloy
Ferrous Alloy
Ferrous Metal
Fiber
Fiber Metal Laminate
Fiberglass
Fine Ceramic
Flat Glass
Float Glass
FML
Free-cutting Steel
Free-machining Steel
Fuel
Gas
Gasoline
Glass
Glass Fiber
Glass Pane
Glucose
Gray Cast Iron
Gray Cast Iron with Nodular Graphite
Grey Cast Iron
Grey Iron
Half-synthetic Fiber
Hardened Cast Iron
High Grade Steel
High Performance Alloy
High Strain Steel
High Temp Metal Alloy
High Temperature Steel
High-alloy Steel
High-carbon Steel
High-speed Steel
Hybrid Matrix Composites
Inorganic Compound
Inorganic Polymer
Iron Alloy
Keratin
Leather
Liquid
Low Temperature Steel
Low-alloy Steel
Low-carbon Steel
Malleable Iron
Medium-carbon Steel
Metal
Metal Matrix Composite
Metal Oxide
Mild Steel
MMC
Natural Material Matrix Composite
Natural Polymer
Neutral Refractories
Nickel Alloy
Nickel-based Super-alloy
Nickel-chromium Steel
Nitride Ceramic
Noble Metal
Non-alloy Steel
Non-ferrous Metals
Non-metallic Material
Noncrystalline Ceramic
Organic Polymer
Oxide Ceramic
Paper
Pearlitic Malleable Iron
Petroleum
Plain Steel
Plain-carbon Steel
Plastic
Plate Glass
PMC
Polymer
Polymer Fiber
Polymer Foam
Polymer Matrix Composite
Precious Metal
Protein
Quality Steel
Recycled Paper
Refractory
Refractory Ceramic
Reinforced Concrete
Reinforced Glass
Reinforced Polymer
Safety Glass
Semicrystalline Ceramic
Sheet Glass
Silico-manganese Spring Steel
Silicon Carbide Ceramic
Silicon Nitride Ceramic
Special Steel
Spring Steel
Stainless Steel
Starch
Steel Alloy
Structural Ceramic
Structural Steel
Superalloy
Synthetic Fiber
Synthetic Polymer
Technical Ceramic
Thermoplastic
Thermoset
Titanium
Titanium Alloy
Tool Steel
Traditional Ceramic
Ultrahigh-carbon Steel
Vegetable Fiber
White Cast Iron
White Iron
White Malleable Cast Iron
Whiteheart Malleable Iron
Whiteware
Wood
Wrought Aluminium
Wrought Copper
Wrought Iron
Wrought Magnesium
Zinc Alloy
Zirconia Ceramic
Zirconium Dioxide Ceramic