An Investigation on the Polymer Composite Medical Device - External Fixator

Baidya, K. P.; Ramakrishna, Seeram; Rahman, M. M.; Ritchie, Allan; Huang, Zheng‐Ming

doi:10.1106/073168403023292

Cited by 10 publications

(9 citation statements)

References 17 publications

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“…Additionally, biomedical polymers do not interfere with medical imaging technologies, such as MRI and CT [24]. Metal related artefacts are problematic in post-operative patient management where star-burst artefacts or streaking can considerably degrade image quality [25][26][27][28].…”

Section: Advantages Of Polymersmentioning

confidence: 99%

Welding methods for joining thermoplastic polymers for the hermetic enclosure of medical devices

Amanat¹,

James²,

McKenzie³

2010

Medical Engineering & Physics

171

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Section: Advantages Of Polymersmentioning

confidence: 99%

Welding methods for joining thermoplastic polymers for the hermetic enclosure of medical devices

Amanat¹,

James²,

McKenzie³

2010

Medical Engineering & Physics

171

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“…In this way, the composite ring stiffness and load carrying capacity can be redesigned according to the worst-case loading condition. Such design can be accomplished based on FEM (finite element method) analysis, and has been discussed by Baidya et al [2003]. It has been concluded there that the thickness and the width of the composite ring should be increased by 75% and 57% respectively in order that (1) the bending stiffness of the composite ring is equal to that of the stainless-steel ring, (2) the worstcase loading stress is well below the yield limit of the material, and (3) the deformation is less than 1% of the nominal diameter of the ring.…”

Section: Performance Characterizationmentioning

confidence: 99%

Case Studies

2004

An Introduction to Biocomposites

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“…Also, in the aerospace and automotive industries, the use of polymers and polymer matrix composites [3] has recently increased for fuel efficiency. For other consumer products, such as mobile phones [1], various electrical devices [4], computers, building and household appliances [3], the rapid spreading of polymer materials has provided many advantages [1,2,6]. …”

Section: Introductionmentioning

confidence: 99%

The Effects Of Critical Welding Parameters On Tensile-Shear Properties Of Friction Stir Spot Welded Polyethylene

Çevik¹,

Gülenç²,

Durgutlu³

2017

Journal of Polytechnic

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Bu makaleye şu şekilde atıfta bulunabilirsiniz(To cite to this article): Çevik B., Gülenç B. and Durgutlu A., "The effects of critical welding parameters on tensile-shear properties of friction stir spot welded polyethylene", Politeknik Dergisi, 20(4): 945-951, (2017). Politeknik Dergisi, 2017; 20 (4) : 945-951 Journal of Polytechnic, 2017; 20 (4) ABSTRACTThe aim of this study was to investigate the weldability of high density polyethylene via friction stir spot welding method. Polyethylene sheets were joined with dwell times of 60 to 100 s, three different pin profiles (M6×1, M6×1.25, M6×1.5) and pin lengths of 3.75 to 4.75 mm by using rotational speed of 900 rpm and delay time of 45 s. During welding processes, the temperatures were measured under the welding centers. The tensile-shear tests were performed to welded samples. Also, macrostructures of welding nuggets were examined. The small welding nuggets were formed by using the lower dwell time. The melting in welding nugget occurred in the all dwell times during the welding. The dwell time affected on the friction temperature. The key (pin) hole closed when sufficient friction temperature (dwell times of 80 and 100 s). The pin profiles directly affected the welding quality. Large screw pitch range of the pin and the small pin length from 4.5 mm negatively affected the weld fracture load. Pin length of the stirring tool directly affected the quality of welding.Keywords: FSSW, polyethylene, welding parameters, tensile-shear properties. ÖZBu çalışmanın amacı, sürtünme karıştırma nokta kaynak yöntemi ile yüksek yoğunluklu polietilen malzemelerin kaynaklanabilirliğini araştırmaktır. Polietilen levhalar, 900 dev/dak devir sayısı ve 45 s bekleme süresi kullanılarak, 60-100 s karıştırma süresi, üç farklı pim profile (M6×1, M6×1.25, M6×1.5) ve 3.75-4.75 mm pim uzunluklarında birleştirilmiştir. Kaynak işlemi esnasında kaynak merkezinin altından sıcaklık ölçümleri yapılmıştır. Kaynaklı numunelere çekmek-kayma testleri uygulanmıştır. Ayrıca kaynak çekirdeklerinin makro görüntüleri incelenmiştir. Düşük karıştırma süreleri kullanıldığında küçük kaynak çekirdekleri oluşmuştur. Tüm karıştırma sürelerinde kaynak çekirdeğinde ergime meydana gelmiştir. Karıştırma süresi sürtünme sıcaklığına etki etmiştir. Yeterli sürtünme sıcaklığı (80 ve 100 s) oluştuğunda kaynak çekirdeğindeki anahtar (pim) değili kapanmıştır. Pim profili kaynak kalitesine doğrudan etki etmiştir. Büyük adımlı vidalı olan pim ve 4.5 mm'den küçük pim boyları kaynak kopma mukavemetini olumsuz etkilemiştir. Karıştırıcı takımın pim boyunun kaynak kalitesine doğrudan etki ettiği belirlenmiştir.Anahtar Kelimeler: SKNK, polietilen, kaynak parametreleri, çekme-kayma özellikleri.

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An Investigation on the Polymer Composite Medical Device - External Fixator

Cited by 10 publications

References 17 publications

Welding methods for joining thermoplastic polymers for the hermetic enclosure of medical devices

Welding methods for joining thermoplastic polymers for the hermetic enclosure of medical devices

Case Studies

The Effects Of Critical Welding Parameters On Tensile-Shear Properties Of Friction Stir Spot Welded Polyethylene

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