Transient techniques for electrothermal characterization of small (e.g., micro-scale or nano-scale) samples are described. These techniques overcome some of the limitations existing in conventional approaches. These transient techniques involve causing a temperature variation inside a sample, and determining a transient signal response (e.g., a voltage rise or drop) arising in the sample as a result of the temperature variation. In some embodiments, the temperature variation may be caused by allowing amplitude modulated electric current (e.g., stepped current or periodic stepped current) to flow through the sample. Alternatively, or additionally, the temperature variation may be caused by controlling a laser source to irradiate the sample. Thermal characteristics of the sample (e.g., thermal diffusivity, thermal conductivity, specific heat) can be determined based on the transient response. These transient techniques can be executed by a computer system in an automatic fashion, e.g., without having to rely on a user to manually pre-process the measurement data.

A temperature imaging device that can visualize a temperature change by color even with a large area. The temperature imaging device includes: a base material; and a composite having polyallylamine introduced between layers of poly-10,12-pentacosadiynoic acid, the composite being incorporated into the base material or caused to adhere onto the base material.

A flash fire instrumented manikin articulation system designed to evaluate the thermal protective performance of protective clothing when exposed to flames. The flash fire instrumented manikin articulation system includes an instrumented manikin and an articulation system designed to simulate exposure to a flash fire and simulate dynamic movement including walking and jogging.