Abstract
Gas assisted laser machining of materials is a common practice in the manufacturing industry. Advantages in using gas assistance include reducing the likelihood of flare-ups in flammable materials and clearing away ablated material in the cutting path. Current surgical procedures and research do not take advantage of this and in the case for resecting osseous tissue, gas assisted ablation can help minimize charring and clear away debris from the surgical site. In the context of neurosurgery, the objective is to cut through osseous tissue without damaging the underlying neural structures. Different inert gas flow rates used in laser machining could cause deformations in compliant materials. Complications may arise during surgical procedures if the dura and spinal cord are damaged by these deformations. We present preliminary spinal deformation findings for various gas flow rates by using optical coherence tomography to measure the depression depth at the site of gas delivery.
Highlights
Gas assisted laser machining of hard materials is widely used in manufacturing
Gas assisted laser machining of materials is a common practice in the manufacturing industry
Advantages in using gas assistance include reducing the likelihood of flare-ups in flammable materials and clearing away ablated material in the cutting path
Summary
Gas assisted laser machining of hard materials is widely used in manufacturing. Gabzydl performed significant experimentation on various flow rates of assist gas jets collinear with the cutting beam to determine efficiency when cutting various hard materials [1]. Using a gas assisted cutting process involves having a gas jet blow over the kerf during cutting, and presents distinct advantages. The use of inert gases reduces the likelihood of flare-ups while cutting flammable material. An assist gas jet allows for the continuous clearing of the kerf so that the laser light is free to interact with the bottom of the kerf rather than being. Inert gas flow allows smoke and plasma plumes to be blown away, giving the beam an obstruction-free path to the ablation site
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