Relevant bibliographies by topics / Electric connectors Corrosion

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Electric connectors Corrosion'

Author: Grafiati
Published: 11 December 2022
Last updated: 26 January 2023

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Journal articles on the topic "Electric connectors Corrosion"

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Oh, Man-Jin, Min-Jung Kim, Taek-Young Kim, Se-Hyung Kang, and Ho-Kyung Kim. "Fretting Corrosion Behavior of Silver-Plated Electric Connectors with Constant Displacement Amplitude." Journal of the Korean Society of Tribologists and Lubrication Engineers 30, no. 2 (April 30, 2014): 99–107. http://dx.doi.org/10.9725/kstle.2014.30.2.99.

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Oh, Man-Jin, Se-Hyung Kang, Man-Suk Lee, and Ho-Kyung Kim. "Fretting Corrosion Behavior of Tin-plated Electric Connectors with Variation in Temperature." Journal of the Korean Society of Tribologists and Lubrication Engineers 30, no. 3 (June 30, 2014): 146–55. http://dx.doi.org/10.9725/kstle.2014.30.3.146.

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Chu-Kure, S. Z., and H. Yashiro. "Evaluation of Corrosion Resistance of Multilayered Sn/Ag3Sn Electroplating on Cu Alloys for Electric Connectors." ECS Transactions 58, no. 41 (April 24, 2014): 103–13. http://dx.doi.org/10.1149/05841.0103ecst.

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Boudahri, Fethi, Abderrazzak Baba-Ahmed, Mokhtar Bourdim, Abdelkarim Ferouani, and Walid Belkilali. "Contribution to the Theoretical Study of Electrical Conductivity of Materials Composites." International Journal of Materials 9 (February 28, 2022): 1–7. http://dx.doi.org/10.46300/91018.2022.9.1.

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The present work, constituted a theoretical study of the phenomenon of the electric conductivity of composite conducting polymers. Generally, the polymers are used as electrical insulators. The incorporation of conducting loads in an insulating polymeric matrix makes it possible to obtain materials having at the same time a high electric conductivity and a low density. These materials offer a great number of applications such as the electromagnetic shielding, the protection of metals against corrosion, the adhesives conducting, the connectors, the sensors, etc. The prediction and modelling of the electrical behaviour of these composite materials are needed for the choice of their scope and could therefore reduce the onerous experimental work and the cost of production through an optimized design. We carried out a theoretical study. To make this study, we are based on experimental results existing in the specialized literature and we build a new ideal model which describes the variation of electrical conductivity in function the voluminal fraction of the conducting loads. The comparison between our ideal model suggested and other models of McLachlan, Kirkpatrick and Landauer, shows that the model suggested is in concord with the experimental results.
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DANKAT, Gideon-Gwanzuwang, Alin-Alexandru DOBRE, and Laurentiu-Marius DUMITRAN. "NUMERICAL SIMULATION OF THERMAL CONDITION OF A LOW CURRENT ELECTRIC CONTACT." "ACTUALITĂŢI ŞI PERSPECTIVE ÎN DOMENIUL MAŞINILOR ELECTRICE (ELECTRIC MACHINES, MATERIALS AND DRIVES - PRESENT AND TRENDS)" 2020, no. 1 (February 10, 2021): 1–8. http://dx.doi.org/10.36801/apme.2020.1.6.

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Electrical contacts may include various sub-systems or wiring harness connected via detachable connectors which depend on physical contacts for the electrical connectivity. Electrical contacts range from high, medium to low current depending on their usage. However, in the real-life condition, electrical contacts characteristics, especially at the interface, undergoes a gradual change which can be due to corrosion, temperature variation, aging, strained harnesses, discontinuities induced by vibration etc. These changes introduce additional parasitic circuits in the system. Moreover, in some cases where the contact resistance increases due to electrical loses, the local temperature may increase, thereby accelerating contact degradation. This paper presents a numerical analysis on the variation of temperature of a simple low current contact model having a thin oxide film layer at the interface which serves as the ageing factor using finite element method (FEM).
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Du, Kang, Jun Xu, Yao Hui Zhang, and Zi Jie Wei. "Analysis on Electrical Connector Corrosion in Southeast Coastal Areas." Advanced Materials Research 706-708 (June 2013): 1746–49. http://dx.doi.org/10.4028/www.scientific.net/amr.706-708.1746.

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The special atmospheric environment accelerats the corrosion process of electrical connectors in southeast coastal areas. It causes the failure probability increased and the reliability level declined. This paper discussed the most kinds of electrical connector corrosions in southeast coastal areas. The corrosion characters of the metal material used on the electrical connectors are expounded, and environmental factors in the corrosion of electrical connectors are introduced at length.
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Thang, Sai Manh, The Nam Tran, and Duong Nam Nguyen. "Study on Microstructure and Properties of Cu-9Ni-6Sn Alloy Applied for Electric Measurement." Applied Mechanics and Materials 889 (March 2019): 17–23. http://dx.doi.org/10.4028/www.scientific.net/amm.889.17.

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High strength elastic alloy has an important role in the manufacture of electrical equipment and machine building. Along with the development of information and telecommunications technology, the application of this alloy in electrical and electronic equipment is very increasingly. Even on boards or connectors of common electrical equipment such as computers, cell phones, these connectors are usually made of high strength elastic copper alloy. The design required features are small, precision built, with high mechanical strength and elasticity, heat resistance, abrasion and corrosion resistance in the operating environment to ensure its/the power and signal stability for a long time. The design trend is reduced in size but still assure the equipment quality is growing significantly and the corporation to manufacture equipment is researched thoroughly. Accordingly, this article presents the research results about the alloy copper with 9%Ni and 6%Sn which has the high elastic strength and elasticity properties of elastomers after heat treatment. The properties of the microstructure, hardness, conductivity, dry friction coefficient, the corrosion resistance of the alloy from which to determine the parameters for the materials selection procedure and the design of the manufacturing of magnetic contact of this alloy. The results of the study show that after heat treatment and deformation, the Cu-9Ni-6Sn has a strength of alloy up to 1200MPa, the elastic limit is 1100MPa and the conductivity is 8.4%IACS, respectively. The values ​​of this characteristic are consistent with the working conditions of the electrical contact. With the deformation process combined with the heat treatment process, the results of our research group created a single-phase homogeneous microstructure that is chemically stable with the spinodal decomposition in appropriate to the treatment of aging process. By modern methods, this paper demonstrates the durability of the alloy due to the spinodal decomposition during aging treatment at 350°C. This structure of spinodal decomposition is about 20-40nm in size, dispersed throughout the entire cross-section of the sample.
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Zhao, Li You, and Ze Bin Kong. "Corrosion of the Materials in the Electrical Connectors." Solid State Phenomena 305 (June 2020): 70–76. http://dx.doi.org/10.4028/www.scientific.net/ssp.305.70.

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Electrical connector is an important component in electronic system, and its reliability directly affects the reliability of the whole system. Corrosion often occurs in the use of electrical connectors and leads to failure. This paper summarizes the corrosion failure analysis process of three kinds of connectors. The failure types include fluorine corrosion, electrolytic corrosion and sweat corrosion. The quality assurance measures of Anticorrosion for electrical connectors are expounded.
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Wang, Peng, and Liangjun Xu. "Study on the Wear and Abrasion Effect of Metal Nano-Coating Plug Connectors Under Atmospheric Corrosion Conditions." Nanoscience and Nanotechnology Letters 12, no. 8 (August 1, 2020): 1006–14. http://dx.doi.org/10.1166/nnl.2020.3203.

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The plug connector is the most widely used type of separable connector; however, the sliding friction that occurs during the plug-in process causes wear and wiping effects. Wear is a form of damage that occurs to the anti-corrosion coating during the sliding process, and wiping refers to the cleaning effect of corrosion products during the sliding process. Both have negative and positive effects on electrical contact reliability in corrosive environments. Therefore, wear and wiping are key factors in studying the life and reliability of connectors in atmospheric corrosion environments. Atmospheric corrosion is the main mechanism leading to connector contact failure. There have been many related studies on simple connector atmospheric corrosion, but research on the influence of wear and wipe on atmospheric corrosion and the influence of contact resistance degradation is still not comprehensive. To study the influence of wear and wiping on contact reliability during the plug connector-mating process, this work evaluates the metal nano-coating connector plugging process as the object, and the contact resistance degradation model under atmospheric corrosion as the basis, and the effect of wear and wiping on corrosion degradation as the research tool. Ultimately, the influence of wear and wiping on contact resistance is studied in detail. Finally, combined with the actual usage of the plug-in connector, the contact reliability of metal nano-coating plug connectors under the action of abrasion and wiping is studied.
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Wang, Peng, and Liangjun Xu. "Research on the electrical contact degradation model of plug-in connectors under corrosion and wear." Materials Express 11, no. 5 (May 1, 2021): 758–65. http://dx.doi.org/10.1166/mex.2021.1928.

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Failures due to corrosion are common for connectors operating under atmospheric environment. Results of previous studies lacked universal applicability and neglected the degradation process of contact resistance. Also, wear is rarely considered in studies on corrosion degradation, which is an inevitable mechanical process for plug connectors. Considering these problems, the atmospheric corrosion process and copper dynamics were analyzed. The consistency of the atmospheric corrosion mechanism was used to study the local corrosion degradation law and its influencing factors. The wear mechanism on corrosion degradation was determined through the analysis of the influencing factors. The corrosion model of the gold-plated parts under atmospheric wear was established. To study the degradation process of electrical contacts, a degradation model of contact resistance based on the multi-spot contact mechanism was established combined with the previous corrosion degradation model. Experimentally, the corrosion spot density increases as a function of time and varies with plated thickness, whereas the corrosion spot size distribution is still relatively independent of time. The skew phenomenon appears in the cumulative distribution probability of contact resistance as exposure time increases. Whereas the degradation of electrical contact resistance increases as a function of time, the median remains relatively unchanged. A brief analysis of the contact reliability under wear and corrosive environments was also carried out.
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Dissertations / Theses on the topic "Electric connectors Corrosion"

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Shinde, Darshan U. Lall Pradeep. "Wear simulation of electrical contacts subjected to vibrations." Auburn, Ala, 2008. http://repo.lib.auburn.edu/EtdRoot/2008/SUMMER/Mechanical_Engineering/Thesis/Shinde_Darshan_49.pdf.

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Binggeli, Russel K. "An investigation into the performance of insulation piercing connectors for use with aerial bundled cable." Thesis, Queensland University of Technology, 1996. https://eprints.qut.edu.au/36024/1/36024_Binggeli_1997.pdf.

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The objective of this research was to investigate the performance of insulation piercing connectors used to make connections between cores of aerial bundled cable. Previous research had revealed that corrosion around connections in aerial bundled cable systems was a problem for installations adjacent to the sea shore. The literature review conducted as part of the research revealed that little had been written about the basic science of a connection with an insulation piercing connector. The course of research was thus conducted with the view of furthering the basic science of the connections as well as investigating the problem of the associated corrosion. The research was commenced with an investigation of IPCs withdrawn from service. In this phase of the research previous problems associated with IPCs were confirmed and problems associated with the weathering resistance of the seals and the function of the end caps were identified. The investigation of corrosion of aerial bundled cable and IPCs describes the corrosive reactions involved and the mechanism by which corrodants enter the cables. The basis of a test to determine a connector's susceptibility to corrosion was described. Design factors to limit the effects of corrosion were identified. An investigation into the effects of environments with different corrosive potential was under taken. The test proceedure and results were described but no definite conclusions were able to be drawn. The investigation of the electrical contact between the IPC teeth and the aluminium conductor of the cable was investigated. This research indicated a different relationship between contact force and contact resistance than is usually found with connectors. Investigation of the contact forces within an IPC revealed that there was a rapid deterioration of the contact force after the IPC was first tightened. Design factors were identified and their use demonstrated. A number of conclusions and recommendations were made as a result of this research. These conclusions recommendations are directed at the users of IPCs, manufacturers of IPCs and aerial bundled cable, standards writers and researchers and are aimed at improving the performance of existing IPCs and aerial bundled cable systems as well as giving guidance on how to improve on existing designs and products.
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XING, YASHAN, and WEILONG XU. "Signal Analysis of Fretting Damages on Electrial Connector Systems." Thesis, Blekinge Tekniska Högskola, Institutionen för maskinteknik, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-14540.

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Electrical connectors are widely utilized for signal communications in automotive electronic systems whose performance is related to the reliability of the entire system. Electrical connectors are frequently affected by the engine vibration, resulting in fretting damages on electrical connector. In this thesis, the main propose is to find a signal analysis method to predict the fretting damages on fuel pump connector induced by engine vibration. The data of the fuel pump connector is studied from a vibration test of the four-cylinder engine and the dominating frequencies are used in the fretting test to verify the analysis method. The fretting damage is identified through visual inspection by microscope. The model of the connector is built in COMSOL to explain the fretting on the contact surfaces. The results present the signal analysis method can be directly used to predict the risk of fretting damages during the engine vibration. Some significant frequencies are pointed out as guidelines for future tests and optimization.
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Hammam, Tag. "Electrical and Frictional Performance of Tin-Coated Contacts Exposed to Wear and Fretting Corrosion." Doctoral thesis, Uppsala : Acta Universitatis Upsaliensis : Univ.-bibl. [distributör], 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-6344.

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Swingler, Jonathan. "Degradation of electrical contacts under low frequency fretting conditions." Thesis, Loughborough University, 1994. https://dspace.lboro.ac.uk/2134/13898.

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Experimental and theoretical analyses have been conducted upon electrical connector contacts under low frequency fretting conditions. The phenomena of "fretting" -relative micromovements in the components parts of an electrical contact - is known to take a major role in the degeneration of electrical contacts. Low frequency fretting is of particular interest and is typically caused by thermal differential expansion of the component parts due to temperature changes in the environment or the device itself. This thesis begins with a survey of possible failure mechanisms of the contact system. These are analysed and classified into three groups of chemical, physical, and mechanical degradation mechanisms. Fretting has been classified under the mechanical mechanism of degradation but is reported to exacerbate other degradation mechanisms resulting in the phenomena of "fretting corrosion". Developments in contact technology are then surveyed with the emphasis of this study on lubrication of the contact system. A novel fretting simulation apparatus has been developed to study the degradation mechanisms upon the contact system resulting from low frequency micromovements. The study includes investigations on the simulation apparatus of the contact system under different conditions. Particular! y emphasis is given to contacts under the conditions of electrical load and lubrication. Novel trends in the contact performance are reported with respect to electrical contact resistance, corrosion and wear of the contact interface. It is shown that electrically loading or lubricating the contact system has dramatic effects upon the contact performance. Chemical, physical and mechanical mechanisms at the contact interface are presented to explain the contact behaviour under several conditions of low frequency fretting. A "Two Process Model" is proposed which summarises the interaction of these different mechanisms. This model consists of two processes in balance - contact cleaning and contact degradation processes - which either increases or reduces the electrical area of contact. A theoretical computer simulation model is proposed for evaluating contact resistance behaviour of a fretting contact system under several conditions, particularly conditions of electrically loaded and lubricated conditions. Chemical, physical and mechanical mechanisms and their interact are simulated in the model using the Monte Carlo technique.
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Zindine, El Mostafa. "Etude de la résistance à la corrosion de quelques métaux et alliages susceptibles d'être utilisés en connectique sans traitement de surface préalable." Besançon, 1987. http://www.theses.fr/1987BESA2029.

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Etude du comportement mecanique et de la resistance a la corrosion de certains metaux et alliages susceptibles d'etre utilises pour la fabrication de connecteurs sans revetement protecteur. Des alliages a base de nickel, a base de cuivre et a base de cobalt ont ete testes dans des milieux d'essais industriels (h::(2)s et/ou h::(2)s+so::(2)). La nature des produits de corrosion formes ete analysee par reduction electrochimique, diffraction des rx, microsonde de castaing et spectrometrie xps. Les resultats ont ete compares avec ceux obtenus par polarisation des echantillons dans une solution aqueuse de na::(2)s. L'influence des etats thermomecaniques et l'effet des elements d'addition a ete examinee
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Xie, Fei. "A study of vibration-induced fretting corrosion for electrical connectors." 2007. http://repo.lib.auburn.edu/2007%20Spring%20Dissertations/XIE_FEI_5.pdf.

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Book chapters on the topic "Electric connectors Corrosion"

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Williams, Jonathan, and Andrew Burnett. "A New Gallo-Belgic B Coin Die from Hampshire." In Communities and Connections. Oxford University Press, 2007. http://dx.doi.org/10.1093/oso/9780199230341.003.0029.

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The die is 18mm in diameter at the business end, and 23mm in length (figure 19.1). It weighs 46.80 grams. On the die-face there is an incuse design of a stylized horse and rider familiar from the coins of the type known as Gallo-Belgic B (figure 19.2). About halfway down the side, it begins to taper towards the other end which is roughly oval in shape, with a longer diameter of 15mm and a shorter one of 13mm. At the base there is a vestigial spike which projects out slightly (figure 19.3). It looks as if it should be an obverse die which would have been set into an anvil or another kind of metal case for striking. However, such evidence as exists for Iron Age dies from northern Europe suggests that, as indeed was the case in the Greek and Roman worlds, reverse dies could either be in the form of a tapered barrel-shaped object set into a metal casing probably made of iron, or in the form of a long metal shaft with the design carved onto the end. The probability, however, is that this example is in fact an obverse die, for reasons outlined below. The die was analysed by Michael Cowell using non-destructive x-ray fluorescence (XRF) on areas where the immediate surface seems to have been removed, and the bulk material exposed. The results should be regarded as semi-quantitative or approximate, as the technique provides only a surface analysis. The following average results were obtained: The die is thus made of a high-tin bronze with small quantities of other metals. Such alloys are extremely hard and difficult to work, for instance by punching or engraving. The die was examined using optical and scanning electron microscopy (SEM). Most of the surface has a dark grey or black-coloured patina, except in a few places around the edge of the die-face and along the side where the surface has been chipped or broken to reveal a light grey crystalline material beneath. The section of the surface patina is exposed here and can be seen to be more than superficial. There are no indications of copper corrosion products (i.e. red cuprite or green malachite).
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Conference papers on the topic "Electric connectors Corrosion"

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Zhang, Fuxi, and George T. Flowers. "Fretting corrosion in electric connectors induced by axial vibration." In 2014 IEEE 60th Holm Conference on Electrical Contacts (Holm). IEEE, 2014. http://dx.doi.org/10.1109/holm.2014.7031055.

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Singh, Prabjit, Ying Yu, and Robert E. Davis. "Root Cause Analysis of a Connector Time-Delayed Fracture." In ISTFA 2015. ASM International, 2015. http://dx.doi.org/10.31399/asm.cp.istfa2015p0451.

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Abstract A land-grid array connector, electrically connecting an array of plated contact pads on a ceramic substrate chip carrier to plated contact pads on a printed circuit board (PCB), failed in a year after assembly due to time-delayed fracture of multiple C-shaped spring connectors. The land-grid-array connectors analyzed had arrays of connectors consisting of gold on nickel plated Be-Cu C-shaped springs in compression that made electrical connections between the pads on the ceramic substrates and the PCBs. Metallography, fractography and surface analyses revealed the root cause of the C-spring connector fracture to be plating solutions trapped in deep grain boundary grooves etched into the C-spring connectors during the pre-plating cleaning operation. The stress necessary for the stress corrosion cracking mechanism was provided by the C-spring connectors, in the land-grid array, being compressed between the ceramic substrate and the printed circuit board.
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Zhang, Gang, Xin He, Lixin Wang, Ming Li, and Alistair Duffy. "The Effect of Corrosion on the Shielding Effectiveness of Electrical Connectors." In 2022 Asia-Pacific International Symposium on Electromagnetic Compatibility (APEMC). IEEE, 2022. http://dx.doi.org/10.1109/apemc53576.2022.9888440.

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Chou, George J. S. "New Corrosion Resistant Plating to Reduce Gold Consumption in Connectors." In 2012 IEEE 58th Holm Conference on Electrical Contacts (Holm 2012). IEEE, 2012. http://dx.doi.org/10.1109/holm.2012.6336595.

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Yang, Haoyue, Yang Tong, George Flowers, and Zhongyang Cheng. "Capacitance build-up in electrical connectors due to vibration induce fretting corrosion." In 2016 IEEE 62nd IEEE Holm Conference on Electrical Contacts (Holm). IEEE, 2016. http://dx.doi.org/10.1109/holm.2016.7780024.

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Munukutla, Aravind, Randy Rahn, and J. S. Lewis. "Damage Induced Field Failures of Electrical Contacts." In ISTFA 2009. ASM International, 2009. http://dx.doi.org/10.31399/asm.cp.istfa2009p0346.

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Abstract Degradation of contact mating surfaces can produce a wide range of problems including intermittent failures and also full functional failures in all computer systems. This paper discusses the complexity involved with investigating the failure mechanism and root cause for intermittent memory failures on a product from end customers. Also discussed in detail is the approach of fault isolation followed by hypothesis development & physical analysis to arrive at root cause of failure. Fault isolation was achieved through register probing. Three major hypotheses were put forth namely plastic debris, misalignment and contact area issues. The physical analysis data collected through optical inspection, 2D x-ray, cross section and SEM analysis coupled with EDX to prove or disprove the hypotheses, revealed contact area corrosion in the form of nickel oxide. Contributors like gold plating thickness and plating porosity of the mating surfaces was verified to be not an issue in this case. Further analysis on the connector pins, memory modules and the contact area indicated damage to the connector pins leading to nickel exposure. The root cause for damage to the pins was analyzed to be a result of memory modules being inserted at an angle. Further studies are planned to look into design issues of connectors and memory modules to minimize damage to the contact area.
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Carvou, E., J. Labbe, L. Le Marrec, C. Plouzeau, and F. Le Strat. "A Phenomenological Model of Vibrations Transfer in Connectors for Fretting Corrosion Phenomena." In 2018 IEEE Holm Conference on Electrical Contacts. IEEE, 2018. http://dx.doi.org/10.1109/holm.2018.8611705.

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Acquadro, J., S. Noel, P. Chretien, F. Houze, Ph Teste, C. Genet, H. Azougaghe, et al. "Innovative sol-gel coatings for corrosion protection of connector housings." In 2022 IEEE 67th Holm Conference on Electrical Contacts (HLM). IEEE, 2022. http://dx.doi.org/10.1109/hlm54538.2022.9969778.

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Zhang, Fuxi, George T. Flowers, Robert N. Dean, Jeffrey Suhling, and Jinchun Gao. "A study on axial vibration-induced fretting corrosion in electrical connector pair." In 2016 IEEE 62nd IEEE Holm Conference on Electrical Contacts (Holm). IEEE, 2016. http://dx.doi.org/10.1109/holm.2016.7780023.

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Lyu, Kehong, Linxiao Wu, Xiaolong Wu, Jing Qiu, and Guanjun Liu. "Contact Degradation Mechanism and Test Study of Electrical Connector under Micropore Corrosion." In 2021 Global Reliability and Prognostics and Health Management (PHM-Nanjing). IEEE, 2021. http://dx.doi.org/10.1109/phm-nanjing52125.2021.9612788.

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