Contact damage in porcelain/Pd-alloy bilayers

An analysis is made of contact damage in brittle coatings on metal substrates, using a case study of a dental porcelain coating of thickness between 0.1 and 1 mm fused onto a Pd alloy base, with spherical indenter of radii 2.38 and 3.98 mm. At large coating thicknesses (>300 μm), the first damage takes the form of surface-initiated transverse cone cracks outside the contact. At small coating thicknesses (<300 μm), the first damage occurs as yield in the substrate, with attendant formation of subsurface transverse median cracks in the coating. At high loads and thin coatings, both forms of transverse cracking occur, along with subsequent delamination of the ceramic/metal interface, signalling impending failure. Conditions for avoiding such transverse cracking are considered in terms of minimum coating thicknesses and maximum sustainable contact loads. General implications concerning the design of brittle coating systems for optimum damage resistance are considered, with special reference to dental crowns.

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The SMART SRP Well – Application of Edge Analytics for Automated Well Performance Control and Condition Monitoring in a Mature Brownfield Environment – A Case Study from Austria

10.2118/208521-ms ◽

2021 ◽

Author(s):

Christian Windisch

Keyword(s):

Condition Monitoring ◽

Data Communication ◽

Holistic Approach ◽

Well Performance ◽

Measuring Device ◽

Technology Transfers ◽

Failure Conditions ◽

Diverse Data ◽

Bottomhole Pressure

Abstract This paper presents a holistic approach to modern oilfield and well surveillance through the inclusion of state-of-the-art edge computing applications in combination with a novel type of data transmission technology and algorithms developed in-house for automatic condition monitoring of SRP systems. The objective is to enable the responsible specialist staff to focus on the most important decisions regarding oilfield management, rather than wasting time with data collection and preparation. An own operated data communication system, based on LPWAN-technology transfers the dyno-cards, generated by an electric load cell, into the in-house developed production assistance software platform. Suitable programmed AI-algorithms enable automatic condition detection of the incoming dyno cards, including conversion and analysis of the corresponding subsurface dynamograms. A smart alarming system informs about occurring failure conditions and specifies whether an incident of rod rupture, pump-off condition, gas lock or paraffin precipitation occurred in the well. A surface mounted measuring device delivers liquid level and bottomhole pressure information automatically into the software. Based on these diverse data, the operations team plans the subsequent activities. The holistic application approach is illustrated using the case study of an SPR-operated well in an Austrian brownfield.

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Interfacial stability and contact damage resistance by incorporating buffer layer in thermal barrier coatings

Progress in Organic Coatings ◽

10.1016/j.porgcoat.2009.10.020 ◽

2010 ◽

Vol 67 (2) ◽

pp. 95-101 ◽

Cited By ~ 4

Author(s):

Jae-Young Kwon ◽

Sung-Il Jung ◽

Sang-Yeop Lee ◽

Pyung-Ho Lee ◽

Je-Hyun Lee ◽

...

Keyword(s):

Buffer Layer ◽

Thermal Barrier Coatings ◽

Thermal Barrier ◽

Interfacial Stability ◽

Contact Damage ◽

Damage Resistance ◽

Barrier Coatings

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In-Vitro Hertzian Fatigue Properties of Glass Infiltrated Ceramic Composites for Dental Crowns

Materials Science Forum ◽

10.4028/www.scientific.net/msf.486-487.225 ◽

2005 ◽

Vol 486-487 ◽

pp. 225-228 ◽

Cited By ~ 2

Author(s):

Yo Seung Song ◽

Il Seok Park ◽

Ju-Woong Jang ◽

Deuk Yong Lee ◽

Se Jong Lee

Keyword(s):

Artificial Saliva ◽

Cyclic Fatigue ◽

Ceramic Composites ◽

Strength Degradation ◽

Fatigue Properties ◽

Dental Crowns ◽

Contact Loads ◽

Large Numbers ◽

Radial Cracks

Hertzian cyclic fatigue properties of the glass-infiltrated alumina and spinel were evaluated using a WC sphere of radius of 3.18 mm in exact in vitro environment (artificial saliva) at contact loads from 200 N to 1000 N to investigate indentation damage and strength degradation. At 200 N, no strength degradation was observed up to 106 contact cycles. As the load increased from 200 N to 1000 N, the reduction in strength was found when the transition from ring to radial cracking occurred. The degree of strength degradation after critical cycling was more pronounced probably owing to the chemical reaction of the artificial saliva with the glass phase along the radial cracks introduced during the large numbers of contact cycles.

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Coating/Substrate Modulus Mismatches and Margin Geometry Effects on Contact Damage in Curved Brittle Coating Systems

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.41-42.49 ◽

2008 ◽

Vol 41-42 ◽

pp. 49-55

Author(s):

Tarek Qasim

Keyword(s):

Dental Composite ◽

Contact Damage ◽

Principal Stresses ◽

Composite Support ◽

Dental Crowns ◽

Low Elastic Modulus ◽

Brittle Layer ◽

All Ceramic ◽

Side Walls ◽

Radial Cracks

The effects of coating/substrate modulus mismatch and margin geometry on contact damage in bi-layer systems were investigated. Following an earlier study, convex specimens having curvature of 12 mm inner coating diameter and 1mm thick brittle layer on a polymeric and dental composite support bases were produced. Sample coating geometry at the margins was varied by grinding the edge of the glass shells in various shapes. The specimens were tested by applying single cycle load at the specimen’s axis of symmetry using flat indenter of low elastic modulus. The effects of margin geometry and support layer modulus on radial crack initiation and damage evolution was examined, with particular attention paid to the relevance of such damage to lifetimelimiting failures of all- ceramic dental crowns. Finite element modeling was used to evaluate stress distribution in the glass coating. Experimental trends interrupted with peak maximum principal stresses at the margins. The results of this study illustrate that the fracture behaviour of brittle layered structures is not dominated by certain variables. It is demonstrated that critical loads for initiation of radial cracks are sensitive to support layer modulus as well as margin geometry. Support layer modulus plays an important role in crack propagation and subsequent damage patterns, especially at specimen side walls.

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