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Temperature distribution around thin electroconductive layers created on composite textile substrates

  • Ewa Korzeniewska EMAIL logo , Artur Szczesny , Andrzej Krawczyk , Piotr Murawski , Józef Mróz and Sebastian Seme
Published/Copyright: March 20, 2018
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Open Physics
From the journal Open Physics Volume 16 Issue 1

Abstract

In this paper, the authors describe the distribution of temperatures around electroconductive pathways created by a physical vacuum deposition process on flexible textile substrates used in elastic electronics and textronics. Cordura material was chosen as the substrate. Silver with 99.99% purity was used as the deposited metal. This research was based on thermographic photographs of the produced samples. Analysis of the temperature field around the electroconductive layer was carried out using Image ThermaBase EU software. The analysis of the temperature distribution highlights the software’s usefulness in determining the homogeneity of the created metal layer. Higher local temperatures and non-uniform distributions at the same time can negatively influence the work of the textronic system.

Keywords: PVD process; thermograhs; smart textiles; computer analysis; thin layers
PACS: 44.90.+c; 73.61.-r; 73.90.+f; 85.40.Sz

1 Introduction

Elastic electronics, or textronics, rely on even current distribution to function effectively. The current must be evenly distributed throughout the entire surface element of the textronic system, as in the case of sensors [1, 2]. Temperature and temperature differences can affect the way the element works. Distortions to the current may result in the formation of hot spots or a decrease in the efficiency of the system [3, 4]. As in other areas of science, when designing an electronic systems on flexible substrates, optimization should be sought [5, 6, 7]. It is also important to take into account construction solutions in which the formed passive components do not adversely affect other nearby system components by their heating. It is important that the elements should not change their electrophysical properties through their own heating beyond the acceptable range.

The analysis of temperature distribution in circuits where temperature has a key influence on their functioning [8, 9], as well as in the vicinity of electrical-conductive paths, allows for proper selection of optimal working conditions for created systems. Such analysis allows for proper calculation of the heat balance of the electronic system. High temperatures cause changes in electrophysical properties of the systems by reducing the ampacity of conductive materials and gradually deteriorating the properties of the insulating materials. Thermal tests allow evaluation of the effectiveness of the adopted construction solutions. By using a temperature field analysis around the textronics or elastic electronic components, critical points of the electronic system may be indicated. They are spots or areas susceptible to damage or potentially introducing disturbances to the system.

Thermography as a non-invasive method of surface quality evaluation can be used in different fields of engineering i.e. for detecting surface cracks in welds [10, 11] or in concrete structures [12], identifying defects [13, 14, 15], determining the quality of ceramics [16], and also in medicine [17]. From this point of view, the analysis of temperature distribution is important for the application of thin-layer electronic structures in medical applications.

2 Experimental set

The temperature distribution analysis was carried out taking into consideration the electroconductive paths created on a flexible composite substrate, Cordura. Cordura is a textile material made of nylon threads coated on one side with polyurethane foil. The surface mass of this material is 195 g/m2. Due to its high resistance to mechanical damage, Cordura is used to make products in which these qualities are of great importance, for example in sports shoes or military clothing.

The electroconductive path structures were produced using a PVD vacuum deposition process; silver with 99.99% purity was used as the deposited metal and was evaporated from tungsten boats. The thickness of the deposited layer measured in the indirect method was about 250 nm. Test samples of 50 mm in length and 3 mm in width were prepared. The geometrical structure of the created samples is shown in Figure 1. The current source was connected to the external current electrodes. Internal voltage electrodes were used to measure the voltage drop and finally to determine the resistance of the sample with a four-probe method [18]; in these cases the resistance equaled less than 1Ω.

Figure 1 Geometry and dimensions of the test structure created in PVD process on textile substrates
Figure 1

Geometry and dimensions of the test structure created in PVD process on textile substrates

The tested samples were connected to a DC source with a set output value of 200mA. The ambient temperature was 23°C. After a set time of 10 minutes, when the temperature of the sample was stabilized, images were taken using a FLIR T650sc thermal camera. The analysis of the thermographs was made on the basis of Image ThermaBase EU software developed by authors for temperature distribution analysis [19]. The program is used to acquire, process and collect thermographs obtained during measurements with thermal imaging cameras. The software was based on Power Designer 7.5 CASE and RAD / Delphi from Borland Delphi 5. Sybase SQL Anywhere 6 was used as a database engine.

3 Results of experiments

An exemplary thermograph of a thin-layer structure and space around the electroconductive layer is shown in Figure 2.

Figure 2 The thermograph of the electroconductive thin-film structure. (Temperatures measured in °C
Figure 2

The thermograph of the electroconductive thin-film structure. (Temperatures measured in °C

Figure 3 shows the spatial temperature distribution around the created silver layer connected to the current source at the time of reaching the stable temperature of the entire system.

Figure 3 The spatial temperature distribution in the area around the formed thin layer structure
Figure 3

The spatial temperature distribution in the area around the formed thin layer structure

The temperature distribution along the line through the central part of the electroconductive element (shown in Figure 2 as the cross section A-A) is shown in Figure 4a, and along line B-B is shown in Figure 4b. The A-A line was divided into 150 measurement points and the B-B line into 47 measurement points. The temperature of the structure was determined at each of these points and the collected data are presented in Figure 4. The analysis of the graphs allows estimation of the linear temperature distribution on the surface along and across the electroconductive path.

Figure 4 Graph of the temperature distributions a) along and b) across the thin layer sample
Figure 4

Graph of the temperature distributions a) along and b) across the thin layer sample

The graph analysis (Figure 4a) shows that the temperature changes from about 30° C to 41° C along the layer, and the local temperature increase is most likely due to inhomogeneity of the thin structure created in the vacuum deposition process or the unevenness of the substrate. The microscopic image of the composite material which was used as the surface is shown in Figure 5. This image was made with 1500x magnification using a SEM Hitachi S- 4200 electronic scanning microscope.

Figure 5 A microscope image of the Ag layer deposited on a Cordura composite material substrate
Figure 5

A microscope image of the Ag layer deposited on a Cordura composite material substrate

The features described above cause differences in the recorded temperatures measured along one line (e.g. line A-A in Figure 2), where the current density should be nearly uniform. It is impossible to obtain exact information about the temperature distribution only by analysing the thermographs and observing differences in colours. The Image ThermaBase EU software with temperature field analysis is helpful during this kind of study.

Figure 4b shows the temperature distribution across the analyzed structure (line B-B in Figure 2) taking into account the area in the nearest neighborhood of the examined layer. The graph shows that the area near the electroconductive layer is the most heated, and the temperature there is up to 80°C, while the average surface temperature of the metallic layer does not exceed 40°C.

This is the effect of heat dissipation from the top layer of the heating structure. The differences in warming are influenced by a number of factors, such as the flow of air around the analyzed structure caused by both forced and natural convection, and the phenomena of conduction and heat radiation. For a circuit with more complex geometric arrangements, where a large number of electronic components are accumulated on a small area, similar temperature field analysis is recommended because of the local overheating and additive character of the generated heat.

Image made with the scanning electron microscope (magnification 1500x).

Analysis of the temperature distribution over the metal surface can help to determine the quality of the created layer. Greater irregularity in the temperature distribution indicates a greater number of structural defects in the metallic coating. Due to introduced disturbances in the transport of electrical charges, such defects have a significant influence on the amount of heat generated and transported in the structure.

The temperature distribution, in the form of isotherms and temperature gradients, is presented in Figure 6. These graphs show the distribution of heat in the composite substrate.

Figure 6 Gradients of temperature and isotherms in the area around a) the electroconductive path b) around the current electrode
Figure 6

Gradients of temperature and isotherms in the area around a) the electroconductive path b) around the current electrode

The temperature distribution, which is shown in the form of isotherms in Figure 6, shows that the substrate is heated evenly by heat dissipation from the metallic structure. This confirms the role of the substrate in the heat transfer process. Cordura, made of two polymeric layers, has a thickness of about 500 μm, and its heat capacity is much higher than that of the applied metal. This has an effect on the uniform distribution of temperature around the resulting metallic structure.

The electroconductive path formed on the polyamidepolyurethane layer in the upper part of the Cordura is cooled by passing heat to the surrounding air, while cooling in the lower part occurs by transmission of heat to the substrate. Because of the significant differences in the thermal conductivity of silver (419 W/K·m) [20], polyurethane (0.035 W/K·m) and air (0.025 W/K·m) [21, 22], cooling of the metallic layer is much faster than the heat transfer from the polyurethane substrate. Propagation of heat occurs radically and evenly from the electroconductive path. No excessive heating of the current electrodes is observed (Figure 6b). Analysis of thermographs can also help in detection of structure defects.

4 Conclusion

The paper presents the results of an analysis of temperature distribution around electroconductive metal paths created by a PVD process on a composite textile substrate. From surface analysis of temperature distribution, arming occurs due to heat conduction from a thin metal layer as the result of the different conductivity values of the substrate, the applied metal and the air heat capacity.

In the observed thermographs, heterogeneities in emissions and heat transfer can be observed. The differences in heat dissipation are the result of lots of microcracks in the metallic layer. Because of non-uniform heating, the structure may be susceptible to damage as a result of its local overheating, which can consequently cause accelerated aging of components made on the basis of such layers. For medical applications it is important to take into account the fact that heterogeneity of heat emission can lead to micro burns, so the maximum temperature values on the surface of the layer should be considered. Because the heat emission will have to be limited by the maximum temperature values, the total efficiency will be lower than would be expected from a more homogeneous structure. Such structures create opportunities which are difficult to achieve by other methods, but it is also advisable to continue work to improve the quality of structures because of the need to improve homogeneous heating.

Due to the good heat dissipation from the substrate causing a rapid drop in temperature, the structures made on the Cordura substrate can be used in applications where a precisely located heat source is required [23]. Textronics elements can be created close together on this type of substrate, without heating each other. The presented textronic structures can also be used in any application requiring precise and complex heating structures such as electronic components.

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Received: 2017-11-01
Accepted: 2017-11-30
Published Online: 2018-03-20

© 2018 E. Korzeniewska et al., published by De Gruyter

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

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https://doi.org/10.1515/phys-2018-0007
Keywords for this article
PVD process; thermograhs; smart textiles; computer analysis; thin layers
Creative Commons
BY-NC-ND 4.0

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  42. The collinear equilibrium points in the restricted three body problem with triaxial primaries
  43. Detection of the damage threshold of fused silica components and morphologies of repaired damage sites based on the beam deflection method
  44. On the bivariate spectral quasi-linearization method for solving the two-dimensional Bratu problem
  45. Ion acoustic quasi-soliton in an electron-positron-ion plasma with superthermal electrons and positrons
  46. Analysis of projectile motion in view of conformable derivative
  47. Computing multiple ABC index and multiple GA index of some grid graphs
  48. Terahertz pulse imaging: A novel denoising method by combing the ant colony algorithm with the compressive sensing
  49. Characteristics of microscopic pore-throat structure of tight oil reservoirs in Sichuan Basin measured by rate-controlled mercury injection
  50. An activity window model for social interaction structure on Twitter
  51. Transient thermal regime trough the constitutive matrix applied to asynchronous electrical machine using the cell method
  52. On the zagreb polynomials of benzenoid systems
  53. Integrability analysis of the partial differential equation describing the classical bond-pricing model of mathematical finance
  54. The Greek parameters of a continuous arithmetic Asian option pricing model via Laplace Adomian decomposition method
  55. Quantifying the global solar radiation received in Pietermaritzburg, KwaZulu-Natal to motivate the consumption of solar technologies
  56. Sturm-Liouville difference equations having Bessel and hydrogen atom potential type
  57. Study on the response characteristics of oil wells after deep profile control in low permeability fractured reservoirs
  58. Depiction and analysis of a modified theta shaped double negative metamaterial for satellite application
  59. An attempt to geometrize electromagnetism
  60. Structure of traveling wave solutions for some nonlinear models via modified mathematical method
  61. Thermo-convective instability in a rotating ferromagnetic fluid layer with temperature modulation
  62. Construction of new solitary wave solutions of generalized Zakharov-Kuznetsov-Benjamin-Bona-Mahony and simplified modified form of Camassa-Holm equations
  63. Effect of magnetic field and heat source on Upper-convected-maxwell fluid in a porous channel
  64. Physical cues of biomaterials guide stem cell fate of differentiation: The effect of elasticity of cell culture biomaterials
  65. Shooting method analysis in wire coating withdrawing from a bath of Oldroyd 8-constant fluid with temperature dependent viscosity
  66. Rank correlation between centrality metrics in complex networks: an empirical study
  67. Special Issue: The 18th International Symposium on Electromagnetic Fields in Mechatronics, Electrical and Electronic Engineering
  68. Modeling of electric and heat processes in spot resistance welding of cross-wire steel bars
  69. Dynamic characteristics of triaxial active control magnetic bearing with asymmetric structure
  70. Design optimization of an axial-field eddy-current magnetic coupling based on magneto-thermal analytical model
  71. Thermal constitutive matrix applied to asynchronous electrical machine using the cell method
  72. Temperature distribution around thin electroconductive layers created on composite textile substrates
  73. Model of the multipolar engine with decreased cogging torque by asymmetrical distribution of the magnets
  74. Analysis of spatial thermal field in a magnetic bearing
  75. Use of the mathematical model of the ignition system to analyze the spark discharge, including the destruction of spark plug electrodes
  76. Assessment of short/long term electric field strength measurements for a pilot district
  77. Simulation study and experimental results for detection and classification of the transient capacitor inrush current using discrete wavelet transform and artificial intelligence
  78. Magnetic transmission gear finite element simulation with iron pole hysteresis
  79. Pulsed excitation terahertz tomography – multiparametric approach
  80. Low and high frequency model of three phase transformer by frequency response analysis measurement
  81. Multivariable polynomial fitting of controlled single-phase nonlinear load of input current total harmonic distortion
  82. Optimal design of a for middle-low-speed maglev trains
  83. Eddy current modeling in linear and nonlinear multifilamentary composite materials
  84. The visual attention saliency map for movie retrospection
  85. AC/DC current ratio in a current superimposition variable flux reluctance machine
  86. Influence of material uncertainties on the RLC parameters of wound inductors modeled using the finite element method
  87. Cogging force reduction in linear tubular flux switching permanent-magnet machines
  88. Modeling hysteresis curves of La(FeCoSi)13 compound near the transition point with the GRUCAD model
  89. Electro-magneto-hydrodynamic lubrication
  90. 3-D Electromagnetic field analysis of wireless power transfer system using K computer
  91. Simplified simulation technique of rotating, induction heated, calender rolls for study of temperature field control
  92. Design, fabrication and testing of electroadhesive interdigital electrodes
  93. A method to reduce partial discharges in motor windings fed by PWM inverter
  94. Reluctance network lumped mechanical & thermal models for the modeling and predesign of concentrated flux synchronous machine
  95. Special Issue Applications of Nonlinear Dynamics
  96. Study on dynamic characteristics of silo-stock-foundation interaction system under seismic load
  97. Microblog topic evolution computing based on LDA algorithm
  98. Modeling the creep damage effect on the creep crack growth behavior of rotor steel
  99. Neighborhood condition for all fractional (g, f, n′, m)-critical deleted graphs
  100. Chinese open information extraction based on DBMCSS in the field of national information resources
  101. 10.1515/phys-2018-0079
  102. CPW-fed circularly-polarized antenna array with high front-to-back ratio and low-profile
  103. Intelligent Monitoring Network Construction based on the utilization of the Internet of things (IoT) in the Metallurgical Coking Process
  104. Temperature detection technology of power equipment based on Fiber Bragg Grating
  105. Research on a rotational speed control strategy of the mandrel in a rotary steering system
  106. Dynamic load balancing algorithm for large data flow in distributed complex networks
  107. Super-structured photonic crystal fiber Bragg grating biosensor image model based on sparse matrix
  108. Fractal-based techniques for physiological time series: An updated approach
  109. Analysis of the Imaging Characteristics of the KB and KBA X-ray Microscopes at Non-coaxial Grazing Incidence
  110. Application of modified culture Kalman filter in bearing fault diagnosis
  111. Exact solutions and conservation laws for the modified equal width-Burgers equation
  112. On topological properties of block shift and hierarchical hypercube networks
  113. Elastic properties and plane acoustic velocity of cubic Sr2CaMoO6 and Sr2CaWO6 from first-principles calculations
  114. A note on the transmission feasibility problem in networks
  115. Ontology learning algorithm using weak functions
  116. Diagnosis of the power frequency vacuum arc shape based on 2D-PIV
  117. Parametric simulation analysis and reliability of escalator truss
  118. A new algorithm for real economy benefit evaluation based on big data analysis
  119. Synergy analysis of agricultural economic cycle fluctuation based on ant colony algorithm
  120. Multi-level encryption algorithm for user-related information across social networks
  121. Multi-target tracking algorithm in intelligent transportation based on wireless sensor network
  122. Fast recognition method of moving video images based on BP neural networks
  123. Compressed sensing image restoration algorithm based on improved SURF operator
  124. Design of load optimal control algorithm for smart grid based on demand response in different scenarios
  125. Face recognition method based on GA-BP neural network algorithm
  126. Optimal path selection algorithm for mobile beacons in sensor network under non-dense distribution
  127. Localization and recognition algorithm for fuzzy anomaly data in big data networks
  128. Urban road traffic flow control under incidental congestion as a function of accident duration
  129. Optimization design of reconfiguration algorithm for high voltage power distribution network based on ant colony algorithm
  130. Feasibility simulation of aseismic structure design for long-span bridges
  131. Construction of renewable energy supply chain model based on LCA
  132. The tribological properties study of carbon fabric/ epoxy composites reinforced by nano-TiO2 and MWNTs
  133. A text-Image feature mapping algorithm based on transfer learning
  134. Fast recognition algorithm for static traffic sign information
  135. Topical Issue: Clean Energy: Materials, Processes and Energy Generation
  136. An investigation of the melting process of RT-35 filled circular thermal energy storage system
  137. Numerical analysis on the dynamic response of a plate-and-frame membrane humidifier for PEMFC vehicles under various operating conditions
  138. Energy converting layers for thin-film flexible photovoltaic structures
  139. Effect of convection heat transfer on thermal energy storage unit
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