Machining GLARE fibre metal laminates: a comparative study on drilling effect between conventional and ultrasonic-assisted drilling

Giasin, Khaled; Atif, Muhammad; Ma, Yuan; Jiang, Chulin; Köklü, Uğur; Sinke, J.

doi:10.1007/s00170-022-10297-x

Cited by 14 publications

(1 citation statement)

References 62 publications

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“…Composite materials have begun to replace traditional materials in aerospace, aviation, and defense industries and other engineering applications where weight is important. Composites produced in different geometries and components are classified according to the types of reinforcement used [1][2][3][4]. Commonly used polymer matrix composites are classified as fiberreinforced (FRP) [5][6][7][8][9], nanofiber-reinforced [10][11][12][13] and nanoparticle-reinforced [14][15][16][17][18].…”

Section: Introductionmentioning

confidence: 99%

Investigation of Mechanical Properties and Damage Development of Filament Wound GFRP Composite Pipes by Ring Tensile Test

Gemi,

Azeem,

Yazman

et al. 2024

neufmbd

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Filaman sarım yöntemi ile üretilen kompozit borular; hafiflikleri, korozyon dirençleri ve yüksek mukavemetlerinden dolayı birçok mühendislik alanlarında kullanılmaktadır. Özellikle doğalgaz ve petrol boru hatlarında basınç altında çalışan kompozit borular kullanılacağı alanda taşıyabileceği yükleri karşılayabilmesi için özel tasarımlar yapılmaktadır. Filaman sarım üretim yöntemi ile elyaf türü, elyaf sarım açısı ve tabaka sayısı değiştirilerek ihtiyaca göre farklı özelliklerde ve mukavemetlerde kompozit borular üretilebilmektedir. Değişken parametreler ışığında üretilen her borunun mekanik özelliklerinin belirlenmesi gerekmektedir. İç basınç altında çalışan kompozit boruların mekanik özelliklerinin belirlenmesinde kullanılan yöntemlerden bir tanesi de halka çekme testidir. Bu çalışmada Filaman sarım yöntemi ile ±55° elyaf konfigürasyonu ile 72 mm iç çapında ve 1 m boyunda cam elyaf takviyeli plastik (CETP) borular üretilmiştir. Üretilen borulardan ASTM D2290 standardına göre 30 mm genişliğinde 20 mm daraltılmış bölgelere sahip halka çekme test numuneleri hazırlanmıştır. Deneyler Instron 8801 test cihazında yapılmış ve veriler kaydedilmiştir. Kompozit boruların halka çekme deneyleri sonrasında elde edilen veriler işlenmiş ve grafik haline dönüştürülerek yorumlanmıştır. Deney sonrası hasar bölgeleri yüksek çözünürlüklü olarak fotoğraflanarak ayrıntılı makro ve mikro (SEM) hasar analizi yapılarak oluşan hasar modları belirlenmiştir.

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Section: Introductionmentioning

confidence: 99%

Investigation of Mechanical Properties and Damage Development of Filament Wound GFRP Composite Pipes by Ring Tensile Test

Gemi,

Azeem,

Yazman

et al. 2024

neufmbd

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An experimental study on ultrasonic-assisted drilling of Inconel 718 under different cooling/lubrication conditions

Erturun,

Tekaüt,

Çiçek

et al. 2023

Int J Adv Manuf Technol

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Influence of cutting tool design on ultrasonic-assisted drilling of fiber metal laminates

Atif,

Wang,

Xie

et al. 2024

Int J Adv Manuf Technol

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Ultrasonic-assisted drilling (UAD) is a machining process that is known to improve the hole quality and reduce cutting forces. Previous studies focused on optimizing cutting parameters to improve the hole quality in conventional drilling (CD) and UAD, as well as to finding the optimum vibration parameters (frequency and amplitude) that will increase the effectiveness of the UAD process. However, the influence of cutting tool type during UAD has been largely overlooked. This research aims to address this gap by analyzing the effect of cutting tool type during UAD on the cutting forces and hole quality in GLARE (Glass Laminate Aluminum-Reinforced Epoxy) laminates. Four types of drills, namely, twist drill (TD), double cone drill (DCD), a step drill type 1 (SD1), and step drill type 2 (SD2) with different step length, were selected for this study. The lowest thrust force (47.04 N) and torque (0.079 Nm) were achieved using twist drill, while DCD, SD1, and SD2 exhibited higher thrust forces (12.81%, 20.69%, 41.3%) and torques (94%, 92%, 91%), respectively. In addition, TD produced high-quality holes with lowest surface roughness (Ra 1.66 μm, Rz 10.58 μm) and minimal burr formation (entry burr height 152.3 μm, exit burr height 69.22 μm). Conversely, DCD, SD1, and SD2 showed higher surface roughness Ra (23%, 16%, 24%) and Rz (16%, 37%, 29%), respectively, compared to the TD. Holes drilled using SD1 and SD2 generally had smaller burr height. Overall, UAD system effectively reduced cutting forces at low spindle speed and feed rate. To achieve higher drilling quality, specifically to reduce the surface roughness and exit burr height, a medium spindle speed of 3000 rpm, a feed rate of 225 mm/min is recommended. Drilling at higher cutting parameters using UAD resulted in a decline in hole quality, except for entry burr height.

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Machining GLARE fibre metal laminates: a comparative study on drilling effect between conventional and ultrasonic-assisted drilling

Cited by 14 publications

References 62 publications

Investigation of Mechanical Properties and Damage Development of Filament Wound GFRP Composite Pipes by Ring Tensile Test

Investigation of Mechanical Properties and Damage Development of Filament Wound GFRP Composite Pipes by Ring Tensile Test

An experimental study on ultrasonic-assisted drilling of Inconel 718 under different cooling/lubrication conditions

Influence of cutting tool design on ultrasonic-assisted drilling of fiber metal laminates

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