【摘 要】
:
Hole-making for Carbon Fiber Reinforced Plastics (CFRP)/Ti-6Al-4V stacks is crucial for the assembling strength of aircraft structure parts.This work carried out experimental work for helical milling (HM) of the stacks with sustainable cooling/lubrication
【机 构】
:
Key Laboratory of Mechanism Theory and Equipment Design of Ministry of Education,Tianjin University,
论文部分内容阅读
Hole-making for Carbon Fiber Reinforced Plastics (CFRP)/Ti-6Al-4V stacks is crucial for the assembling strength of aircraft structure parts.This work carried out experimental work for helical milling (HM) of the stacks with sustainable cooling/lubrication (dry,MQL and cryogenic)conditions.Cutting forces and temperatures at the CFRP layer,Ti-6Al-4V layer and the interface of stacks were obtained by a developed measuring system.The temperatures in CFRP machining at cryogenic condition varied from-167 ℃ to-94 ℃,which were much lower than those at dry and MQL conditions.The maximum temperature near the interface of stacks for the ninth hole was higher than 240 ℃ due to heat conduction from Ti-6Al-4V layer.The hole quality,hole diameter and tool wear mechanism at different cooling/lubrication conditions were presented and discussed.MQL condition generated mainly extrusion fracture for the fibers,due to the reduced friction effect compared with dry condition.MQL was helpful to reduce the feed mark at the hole surface of Ti-6Al-4V alloy.The flank wear of cutting edge at MQL condition was better than those at dry and cryogenic conditions.Cryogenic cooling contributed to better CFRP surface with smaller delami-nation and hole entrance damage due to the increased resin strength and fiber brittleness.The dam-age near the entrance of CFRP were analyzed by the contact state of cutting edges and fibers.Additionally,hole diameters near the exit of CFPR layer were larger than other test positions.This work provided feasible processes for improving hole quality and tool life in hole-making of CFRP/Ti-6Al-4V stacks.
其他文献
Formation flying Low Earth Orbiters (LEOs) are important for implementing new and advanced concepts in Earth observation missions.Precise Baseline Determination (PBD) is a pre-requisite for LEOs to complete specified mission targets.PBD is usually perform
For the solid rocket with depletion shutdown system,effective energy management is sig-nificant to meet terminal constraints by exhausting excess energy.Several traditional energy man-agement algorithms cannot satisfy the altitude constraint and path cons
This research concerns a novel attitude stabilization structure for a ducted-fan aerial robot to work against modeling error and strong external transient disturbance,and it focuses on two main control targets:modeling error compensation,and the improveme
The problem of distributed fusion and random observation loss for mobile sensor net-works is investigated herein.In view of the fact that the measured values,sampling frequency and noise of various sensors are different,the observation model of a heteroge
Cold spray is an attractive and rapidly developing process for additive manufacturing with high efficiency and precision,repairing and coating,especially in aircraft and aerospace appli-cations.Cold spray additive manufacturing deposits micro-particles wi
The damage and fracture in hot spinning of titanium alloy is a very complex process under the combined effects of microstructure evolution and stress state.In this study,their depen-dences on processing parameters were investigated by an integrated FE mod
Compared with a copper wire electrode,molybdenum wire with a poor conductor is usu-ally used as the electrode in high speed wire-cut electrical discharge machining (HSWEDM),so the resistance of an ultra-fine wire cannot be ignored.To study the differences
Ultrasonic vibration-assisted grinding (UVAG) is an effective and promising method for machining of hard-to-cut materials.This article proposed an ultrasonic vibration plate device enabling the longitudinal full-wave and transverse half-wave (L2T1) vibrat
Due to the characteristics of high efficiency,wide working range,and high flexibility,industrial robots are being increasingly used in the industries of automotive,machining,electrical and electronic,rubber and plastics,aerospace,food,etc.Whereas the low
This paper aims to characterise surface morphology and 3D roughness parameters of unidirectional carbon fibre reinforced plastic (UD-CFRP) milled at 0°,45°,90°,and 135° fibre ori-entation angles (FOAs).Side milling experiments are conducted on UD-CFRP lam