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Automotive, Aviation and Aerospace

The demands on materials for vehicle construction and aerospace are particularly high. The functionality and durability of the designs depend on the nature and suitability of the materials, and also the health of the vehicle occupants including drivers, pilots, astronauts and passengers.

A decisive factor for the selection of materials in these sometimes highly sensitive areas are thermophysical properties. These properties can be determined by means of deformation analysis, material testing or crack testing.

Among other things, the modern thermoanalytical measuring techniques of LINSEIS enable the following questions to be answered:

  • At what temperature does a bumper distort?
  • Which material is the least susceptible to impact deformation?
  • Why is there a molded part for brittleness breakage?
  • Can the curing cycle of a carbon fiber reinforced resin be shortened?
  • Is the turbine material sufficiently thermally conductive to ensure good cooling?
  • Which material can withstand the high thermal loads in the aerospace industry?

Thermophysical measurement techniques provide an ideal tool for research and development for cars, trucks, airplanes, satellites or manned spaceflight. This testing is imperative for part testing, quality control, process optimization and or failure analysis.

Vehicle appearance due to exposure to a variety of environmental influences, during their use can change in appearance, function, and life. The climatic tests provided by our instruments play a major role in discovery and product enhancement.

LINSEIS also provides suitable measuring devices for the determination of thermophysical data, for this purpose.

Our measuring instruments for the automotive / aerospace industry

DTA PT 1600

DTA-PT1600
  • High temperature DTA
  • Modular instrument design (sample robot, gas dosing systems, muliple furnaces on a turntable, etc.)
  • Qualitative analysis of endothermic and exothermic reactions
  • Temperature range: -150°C up to 1000/1600/1750/2400°C
Details

DIL L74 HM

DIL-L74_Erhitzungsmikroskop
  • High performance Heating Microscope for demanding applications
  • Vacuum tight design
  • optional gas dosing systems
  • Temperature range: -100°C up to 1500/ 1700/2000°C
Details

DIL L74 Optical

DIL-L74_Erhitzungsmikroskop
  • Non contact optical Dilatometer
  • Vacuum tight design
  • optional gas dosing systems
  • -100°C up to 1500/1700/2000°C
Details

DIL L75 120 LT

  • Vertical “Zero Friction” Dilatometer
  • up to 8 samples in one run
  • optional humidity generator
  • especially suitable for CTE determination of polymers
Details

DIL L75 Laser

DIL-L75_Laser
  • Worlds only commercial absolute Dilatometer – no zero run required
  • Resolution 0.3nm (300 picometer)
  • Temperature range: -180 up to 1000°C
Details

DIL L75 PT Horizontal

DIL-L75_Horizontal
  • High performance horizontal single, differential or double pushrod Dilatometer
  • Temperature range: -180 up to 1000/1600/2800°C
  • LVDT or optical Encoder
Details

DIL L75 PT Quattro

DIL PT Quattro
  • High troughput vertical “Zero Friction”Dilatometer for up to 4 samples
  • Temperature range RT up to 1000/1400/1600/2000°C
Details

DIL L75 PT Vertical

DIL-L75_Vertical
  • Vertical “Zero-Friction” Dilatometer
  • Multi furnace option (up to 3 furnaces)
  • Different furnaces: -263 up to 1000/1600/1750 …2800°C
Details

DIL L78 RITA

DIL L78 RITA
  • Quenching and Deformation/Tension Dilatometer family
  • determination of TTT, CHT and CCT diagrams
  • up to 2500°C/s heating and cooling
  • -150 up to 1600°C Temperature range
Details

DSC PT 1000

DSC-PT1000
  • State of the Art DSCwith user exchangable Metal Sensors
  • Temperature range -180 to 750°C
Details

DSC PT 1600

TGA-PT1600
  • Modular high temperature DSC
  • Determination of specific heat (Cp) and enthalpy from high temperature metals and ceramics
  • Temperature range -150 to 2400°C
Details

LSR-3

LSR-3

Most advanced Seebeck Coefficient and Electric Resistivity (LSR) charac-terization of Bulk material and Thin-Films

Details

STA PT 1000

STA-PT1000
  • Combined Thermo-gravimetry and Differential Scanning Calorimetry
  • True top loading TG-DSC heat flux sensors
  • Numerous user excheangable TG, TG-DSC and TG-DTA sensors for any kind of application
  • Temperature range: RT up to 1000°C
Details

STA PT 1600

STA-PT1600
  • Combined Thermo-gravimetry and Differential Scanning Calorimetry
  • True top loading TG-DSC heat flux sensors
  • Numerous user excheangable TG, TG-DSC and TG-DTA sensors for any kind of application
  • Modular design: sample robot, turntable for up to two furnaces, vacuum tight design, different gas dosing systems, high pressure (up to 5 bar) option, vapor dosing system etc.
  • Temperature range: -150 up to 1600/1750/2000/2400°C
Details

L81-I

STA L81
  • Modular Simultaneous Thermal Analyzer (STA) for special custom applications
  • Combined Thermogravimetry (TGA) – Differential Scanning Calorimetry (DSC)
  • Temperature range: -150 up to 1000°C and RT up to 1600/ 1750/ 2000/ 2400°C
Details

TGA PT 1000

TGA-1000
  • Toploading low drift Thermobalance (TGA) 
  • High speed microfurnace for very fast heating and cooling
  • Many acessories such as: gas dosing systems, sample robot, MS/FTIR coupling etc.
  • Temperature range RT up to 1100°C
Details

TGA PT 1600

TGA-PT1600
  • Modular top loading high temperature Thermo-balance (TGA)
  • Numerous options and upgrades: sample robot, gas dosing system, vacuum, many different sample holders and crucibles for different applications
  • Temperature range: -150 up to 1000/ 1400/ 1600/ 1750/ 2000/ 2400°C
Details

TGA MSB PT 1

TGA MSB PT 1
  • Magnetic levitation balance(MSB)
  • separation of reactor and balance
  • allows most challenging applications under sever temperature/gas conditions
  • Temperature range: -196 up to 2400°C
  • from 10E-5mbar to 150 bar
Details

TMA PT 1000

TMA-1000
  • High performace Thermo-mechanical Analysis (TMA)
  • highest resolution LVDT displacement sensor with a digital resolution of 0.125nm/digit
  • Adjustable force and frequency
  • Temperature range: -150 up to 1000°C or special version -260 up to +220°C
Details

TMA PT 1600

TMA-1600
  • Thermomechanical Analysis over a wide temperature range
  • Precise force and frequency control
  • Vacuum tight design
  • Temperature range: -150 up to 1400/1600°C
Details

TFA

TFA

Unique device for a comprehensive thin film characterization from the nm to the µm scale

Details

TF-LFA

TF-LFA

Thin Film LaserFlash – Time Domain ThermoReflectance (TDTR)- Thermal diffusivity of thin films

Details

HFM

Linseis HFM

HFM – Heat Flow Meter – The perfect solution for isolating materials

Temperature range:

  • Fixed 0 to 40°C
  • var. 0 to 100°C
  • -20 up to 75°C
  • var. -30 to 90°C
  • var. -20 to 70°C
Details

THB

Linseis THB

THB – Transient Hot Bridge – Sandwiched Sensor type Thermal Conductivity and Thermal Diffusivity measurements

Service temperature:

  • –150°C up to 200°C
  • -150°C  up to 700°C
Details

LZT Meter

LZT-Meter

LZT-Meter – Perfect tool for thermoelectric applications

Temperature range:

  • -150 up to 500°C
  • RT up to 800
  • RT up to 1100/1500°C
Details

LFA 500

LFA-500

LFA 500 – LightFlash Analyzer – The robust workhorse

Temperature range:

  • -100 up to 500°C
  • RT up to 500°C / 1000°C / 1250°C
Details

LFA 1000

LFA-1000

LFA 1000 – True LaserFlash Analyzer – The premium device

Temperature range:

  • -125 up to 500°C
  • RT up to 1250°C/ 1600°C/ 2000°C/ 2800°C
Details

EGA QMS

EGA Pfeiffer

An optical In-Situ Analysis offers many advantages such as: no Cooling / Modification of the measuring gas (for example no out-condensation, no transition reaction and no equilibrium shift).
Many materials with high condensation temperature for example alkali metals (Na, K and their combinations) are now able to be measured, heated capillary only suitable for some 200 – 250°C, the optical port allows measurement until 1600°C

Details