"2"^^ . . "The paper deals with an innovative way of cutting materials by abrasive waterjet with a view to increase its quality. In the research work, we were concerned with the search for a relationship between surface roughness and noise in the abrasive waterjet cutting process. Innovation lies in the use of negative characteristic of the technology-noise, which is a carrier of information about the quality of cutting process. In this way, the noise can be positively used in the on-line control of the technological process. The final result is a project for control of the process of abrasive waterjet cutting of materials by means of feedback according to the on-line measurement of acoustic pressure level L (aeq) (dB)." . . . "0268-3768" . "1"^^ . . "1-4" . . "294835" . "Surface roughness; Acoustic sound pressure level; Abrasive waterjet"@en . . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "Hloch, Sergej" . "Using the acoustic sound pressure level for quality prediction of surfaces created by abrasive waterjet"@en . "Using the acoustic sound pressure level for quality prediction of surfaces created by abrasive waterjet"@en . "27350" . "11"^^ . . "P(GA101/09/0650), Z(MSM6198910016)" . "Using the acoustic sound pressure level for quality prediction of surfaces created by abrasive waterjet" . . . . . "Val\u00ED\u010Dek, Jan" . "000275659200017" . "RIV/61989100:27350/10:86076174!RIV11-GA0-27350___" . . . "48" . . "[DC5E93A40178]" . . . "Using the acoustic sound pressure level for quality prediction of surfaces created by abrasive waterjet" . . "RIV/61989100:27350/10:86076174" . "The International Journal of Advanced Manufacturing Technology" . "The paper deals with an innovative way of cutting materials by abrasive waterjet with a view to increase its quality. In the research work, we were concerned with the search for a relationship between surface roughness and noise in the abrasive waterjet cutting process. Innovation lies in the use of negative characteristic of the technology-noise, which is a carrier of information about the quality of cutting process. In this way, the noise can be positively used in the on-line control of the technological process. The final result is a project for control of the process of abrasive waterjet cutting of materials by means of feedback according to the on-line measurement of acoustic pressure level L (aeq) (dB)."@en .