MODULE DESCRIPTION Modue code Modue name Modue name in Engish Vaid from academic year 013/014 MODULE PLACEMENT IN THE SYLLABUS Techniki aserowe Laser Technoogies Subject Leve of education Studies profie Form and method of conducting casses Speciaisation Unit conducting the modue Modue co-ordinator Mechanics and Machine Design 1st degree (1st degree / nd degree) Genera (genera / practica) Fu-time (fu-time / part-time) Industria Automatic Contro The Department of Industria Laser Systems Włodzimierz Zowczak, PhD hab., Eng., Professor of the University Approved by: MODULE OVERVIEW Type of subject/group of subjects Modue status Language of conducting casses Modue pacement in the syabus - semester Subject reaisation in the academic year Major (basic / major / speciaist subject / conjoint / other HES) Compusory (compusory / non-compusory) Poish 7 th semester Winter semester (winter / summer) Initia requirements Mechanics (modue codes / modue names) Examination No (yes / no) Number of ECTS credit points 3 Method of conducting casses Lecture Casses Laboratory Project Other Per semester 15 15 TEACHING RESULTS AND THE METHODS OF ASSESSING TEACHING RESULTS 5-314 Kiece te. 41-34-4-09, e-mai: d.siwinska@tu.kiece.p
Modue target The aim of the modue is to famiiarise students with: basic technoogica appications of arge- and midde-power asers; physica fundamentas of operation and structure of CO and Nd:YAG asers appied in technoogy. Basic properties of aser radiation and foca radiation with materias (with metas in particuar). Students wi become famiiarised (both theoreticay and practicay) with the foowing advanced aser technoogies: meta cutting, weding, surface machining a contactess aser bending and shaping aser eements. OHS principes concerning operation with aser devices wi be presented as we. Effect symbo Teaching resuts Teaching methods (/c//p/other) Reference to subject effects Reference to effects of a fied of study U_0 U_05 K_0 A student is famiiar with basic notions concerning aser technoogy and the effects of operation as regards a aser beam on metas and non-metas; a student aso knows characteristic features of aser radiation. A student is famiiar with the principes of operation of a aser as a quantum device. A student knows OHS principes connected with aser devices and is capabe of giving first aid in the event of aser beam burns. A student can cut boards and meta sheets made from various metas; a student is aso abe to seect the parameters of a aser beam and program cutting processes. A student can wed various metas, seect weding parameters and program weding processes. A student can aser-harden carbon stee with the use of a segment mirror (with and without recasting). A student can bend meta sheets with the use of three mechanisms of contactess bending with the moving aser beam. A student can measure stee surface microhardness after aser hardening. A student can determine quaity coefficient of a CO aser beam with the use of the so-caed aser beam anayser. A student is capabe of teamwork. A student is aware of the impact of modern aser technoogies in their appication to buid machines and deveop materias engineering. K_W01 K_W05 K_W05 K_U01 K_U0 K_U03 K_U08 K_U6 K_K0 K_K03 InżA_W0 T1A_W0 T1A_W07 InżA_W0 T1A_W0 T1A_W0 T1A_W0 T1A_W0 InżA_U0 T1A_W0 InżA_U0 T1A_W0 InżA_U0 T1A_U08 InżA_U01 T1A_K0 T1A_K03 InżA_K01 K_K0 T1A_K0 Teaching contents: Teaching contents as regards ectures Lecture number 1 Teaching contents Basic notions as regards aser technoogy, fundamenta principes of quantum mechanics, physica fundamentas of aser operation. Reference to teaching resuts for a modue 5-314 Kiece te. 41-34-4-09, e-mai: d.siwinska@tu.kiece.p
3 4 5 6 7 Laser beam properties: directivity, monochromaticity, coherence, and poarisation. Laser beam caustic in the fied of a ens focus, minima beam diameter, Rayeigh ength, the coefficient of beam quaity. The effect of aser radiation on skin tissue and an eye depending on aser type, aser waveengths, OHS principes concerning aser devices. The impact of foca aser beam with meta surface depending on power density in a focus: heating, surface recasting and creating a channe phenomenon under meta surface. Conductive, surface, channe, and deep weding. The methods of aser meta cutting, the resuts of meta cutting depending on aser beam parameters, cutting rate, the types of appied working gases, and their fow rates. Programming cutting processes and the cut out detai shapes. Laser surface processing of metas: therma surface hardening, texturising and honing surfaces in order to modify surface ayer (e.g. improving triboogica properties). Contactess aser bending and shaping boards and meta sheets with the moving aser beam. Creating permanent and transient therma deformations. Expaining the mechanisms of aser permanent bending and sweing boards. Teaching contents as regards aboratory casses Laboratory cass number Teaching contents Practica OHS principes with aser devices and famiiarising students with the aboratory reguations during aboratory casses. The methods of programming cutting processes and the cut out detai shapes. A student s participation whie performing the assigned cutting programs. Laboratory casses on aser conductive and channe weding together with seecting the parameters of aser processing. Measuring the coefficient of beam quaity for a given weding head. Laboratory casses on cutting out meta sheets from ow-carbon stee, stainess stee and ceramics with the use of an inert gas (nitrogen and argon) or an active gas, e.g. oxygen or air. Laboratory casses on aser sampe hardening from carbon stee with the use of moving beam (with rectanguar section and with homogeneous distribution of beam density). Taking measurements of the obtained hardness with the Wickers method and making hardness sampe reationship between aser power and the rate of scanning surface. Conducting tests of effects concerning aser bending of meta sheets with the moving beam (with the use of the temperature gradient mechanism for thick-waed sampes and with the use of therma bucking depending on aser power for thin-waed sampes and ange measurements of the bending moment depending on aser power). 1 Obtaining a credit for the reports, a fina test. Reference to teaching resuts for a modue K_0 K_0 K_0 K_0 K_0 The methods of assessing teaching resuts 5-314 Kiece te. 41-34-4-09, e-mai: d.siwinska@tu.kiece.p
Effect symbo U_0 U_05 K_0 A fina test A fina test Methods of assessing teaching resuts (assessment method, incuding skis reference to a particuar project, aboratory assignments, etc.) A fina test on aboratory casses Observing a student s invovement during aboratory casses Observing a student s invovement during practica training (casses and aboratory casses). STUDENT S INPUT ECTS credit points Type of student s activity Student s workoad 1 Participation in ectures 15 Participation in casses 3 Participation in aboratories 15 4 Participation in tutorias (-3 times per semester) 5 Participation in project casses 6 Project tutorias 7 Participation in an examination 14 8 Participation in a fina test on aboratory casses 9 Number of hours requiring a ecturer s assistance 46 (sum) 10 Number of ECTS credit points which are aocated for assisted work (1 ECTS credit point=5-30 hours) 11 Unassisted study of ecture subjects 1 1 Unassisted preparation for casses 13 Unassisted preparation for tests 10 14 Unassisted preparation for aboratory casses 10 15 Preparing reports 10 16 Preparing for a fina test on aboratory casses 3 17 Preparing a project or documentation 18 Preparing for an examination 5 19 Preparing questionnaires 0 Number of hours of a student s unassisted work 50 (sum) 1 Number of ECTS credit points which a student receives for unassisted work (1 ECTS credit point=5-30 hours) Tota number of hours of a student s work 96 3 ECTS credit points per modue 1 ECTS credit point=5-30 hours 4 5-314 Kiece te. 41-34-4-09, e-mai: d.siwinska@tu.kiece.p
4 Work input connected with practica casses Tota number of hours connected with practica casses 15 5 Number of ECTS credit points which a student receives for practica casses (1 ECTS credit point=5-30 hours) 5-314 Kiece te. 41-34-4-09, e-mai: d.siwinska@tu.kiece.p