ADVANCE RIKO, Inc.

Company Name:

ADVANCE RIKO, Inc.

Representative's name:

Location:

4388 Ikonobe-cho, Tsuzuki-ku, Yokohama, Kanagawa, 224-0053 Japan

Tel:

+81-45-931-2285

Fax:

+81-45-933-9973

E-mail:

info@advance-riko.com

URL:

https://advance-riko.com/en/

Products:

Ultra High Precision Thermal Expansion Measurement System, Robotic Thermal Dilatometer, Thermal Flow Rate Evaluation System for Low Thermal resistance Multilayer Substrates, Arc-Plasma method nano-particles Deposition system, Desktop type Mini Lamp Annealing System, High Temperature Wettability Evaluation System

Sales Points:

Over 50 years since its foundation, ADVANCE RIKO, Inc. has devoted the technical developments related to “HEAT”, supplied many products such as infrared lamp heating systems, and thermal analysis/thermal property measurement systems, and contributed to technical developments, researches and production activities of the customers in the world.

We hereby introduce our products.

Ultar High Precision Thermal Expansion Measurement System by Laser Interferometer Super-LIX
Thermal expansion measurement with the world-class ultra high accuracy
Application
Development of zero-expansion materials
Development of negative thermal expansion material and anode materials
Development of standard materials
Development of materials for actuator
This system is a highly sensitive thermal dilatometer using a dual path Michelson laser interferometer with linear deflection type He-Ne lasers. It has a function to prevent the effect of oscillation disturbance by incorporating a vibration isolation mechanism inside the system.
Therefore, the thermal expansion factor can be measured with an accuracy of 1 × 10-8/K or less under the condition that a typical analytical electronic balance (resolution 0.01mg) can be used stably.It can also be used to measure the absolute thermal expansion rate of low expansion materials, assist in developing these materials, and provide quality control on the production line.

Robotic Thermal Dilatometer DLY－9000-ROBOT
Labour-saving quality management with fully automatic and unattended operationuality control.
This system was developed for the purpose of standardizing the measurement and saving labor in quality management. With superior repeatability, safety measures for unattended operation and chart function, this system is most suitable for quality management.
Application
You can select sample length version among 20, 50, 100mm depending on your purpose.
Functions to monitor errors of each measuring section as standard equipment
Fully automatic and unattended operation and analysis
Continuous unattended operation for measuring up to 48 samples
Various safety measures equipped as standard like against suspension of water supply, earth leakage and power failure etc.
Greatly-improved measurement cycle due to infrared heating
Automatically monitor measurement accuracy with a standard sample at startup
Remote control for manual recovery when abnormal stop of the system (Data before a stop is saved.)


Thermal Flow Rate Evaluation System for Low Thermal Resistance Multilayer Substrates F-CAL
It is possible to measure the multilayer materials, which is difficult with the laser flash method.
This system is to measure the heat flow rate of a sample.
A heating block is contact with the high temperature side of the sample, and the low temperature side of the sample is contacted with a low temperature block which works as both a cooling and a heat flow meter to perform measurement.v
It is possible to measure the heat flow rate flowing from the hot side to the cold side of the sample in a steady state.
The thermal resistance of the unknown sample can be evaluated by comparing with the thermal flow measurement results of a standard sample with known thermal resistance.
Application
Composite of metal + resin
Composite of ceramic and metal
Composite of carbon and semiconductor
Evaluation of anisotropic materials
Features
Heat flow rate (thermal resistance) in the thickness direction can be evaluated
It is convertible to thermal resistivity using reference sample (Cu・SUS304, etc.)
It is possible to meaure thermal resistance of a sample wich is made by joining a thin sheet material and a metal material

Arc-Plasma method nano-particle Deposition System APD series
This is the only vacuum deposition system capable of creating nanoparticles and nano thin film with new specific capacities by generating metal ions through pulse arc discharge.
This system is used to create nano particles for electrode catalyst, photocatalyst and exhaust gas catalyst of fuel cells, also to form special materials such as hard thin film, magnetic film, lithium ion and battery electrode.
By adding Arc Plasma Source APS-1, alloying two or three metals can be possible.
Applications: Fuel cell catalyst, exhaust gas catalyst, photocatalyst with use of nano particle, VOC dispersed catalyst, carbon nano tube catalyst, Plasmon, Metal thin film(magnetism, plasmon, protection film

Mini Lamp Annealer MILA-5000 series
Perfect for research and development on small samples
Capable of high-speed heating, high-speed cooling, and clean heating. This small, low-cost Infrared Lamp Heating System combines a temperature controller and a variable atmosphere chamber, capable of heating in an adjustable atmosphere. Heating operations can be performed on a PC via a USB connection and data can be easily managed.
Applications: Rapid Thermal Annealing (RTA) of small sample

Hight Temperature Wettability Evaluation System by Contact Angle at the Solid-Liquid Interface WET-1200
Capable of precise observations of substrate and ingot wettability
This system has been commercialized as a compact, low-cost high-temperature wettability test/contact angle measurement system based on the wettability test/contact angle measurement system delivered to the Japan Aerospace Exploration Agency in 1993. This system can perform measurements by the static drop method. The extruded liquid drop method is also available(optional).
Application
Wettability observations of brazing and welding
Research and development of cast alloys and cast mold materials
Liquid-phase sintering research
Wettability testing of molten glass and sealing metals
Features
Capable of measurements in various atmospheres
Static drop method or extruded liquid drop method can be selected

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