@article{aileni_experimental_2024,
	title = {Experimental design using the {Taguchi} method for the development of conductive textiles used in flexible thermoelectric generators},
	volume = {75},
	issn = {12225347},
	url = {http://revistaindustriatextila.ro/images/2024/1/005%20RALUCA%20MARIA%20AILENI%20INDUSTRIA%20TEXTILA%20no.1_2024.pdf},
	doi = {10.35530/IT.075.01.202360},
	abstract = {This paper presents several aspects of the robust experimental design methodology using the Taguchi method to
develop electrically conductive textiles. These conductive textiles will be used to make thermoelectric generators based
on the Seebeck effect. Since the experimental development involves the use of the magnetron sputtering method with
more than three variables, the Taguchi method was selected to observe how different parameters (5 independent
variables such as argon flow, power, pressure, deposition surface area and metal type used for solid targets) influence
the mean and variance of the process performance defined by the thickness of the metal film deposited (dependent
variable). In the experimental design framework, the analysis using the Taguchi method, followed by optimisation,
helped select the optimal experiments from the set of possible experiments. This methodology reduced the number of
experiments by 21–42\% and minimised resource consumption (e.g., metal targets, argon, energy).},
	number = {01},
	urldate = {2024-03-05},
	journal = {Industria Textila},
	author = {Aileni, Raluca Maria and Stroe, Cristina},
	month = feb,
	year = {2024},
	pages = {43--48},
}