Concordia University

|Concordia University

High precision electrochemical manufacturing processes to meet the demand of Industry 4.0


Quantifying the gap formed between the tool and the glass surface during SACE micro-drilling

Improving the material removal rate during SACE glass micro-drilling

Studying the Force Exerted on the Tool-electrode During Machining: A Key Element for Force Feedback Micro- machining Using Spark Assisted Chemical Engraving

Multiscale post-processing of metal additive manufactured parts by electro-polishing technology

Micromachining glass with in situ fabricated micro-tools

Spark Assisted Chemical Engraving (SACE) – an innovative technology with high potential for industry

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