Unit
- Course
- Industrial engineering
- Study-unit Code
- A001729
- Curriculum
- In all curricula
- CFU
- 12
- Course Regulation
- Coorte 2021
- Offered
- 2022/23
- Type of study-unit
- Opzionale (Optional)
- Type of learning activities
- Attività formativa integrata
Code | A001731 |
---|---|
CFU | 4 |
Teacher | Luca Landi |
Teachers |
|
Hours |
|
Learning activities | Caratterizzante |
Area | Ingegneria meccanica |
Academic discipline | ING-IND/14 |
Type of study-unit | Opzionale (Optional) |
Language of instruction | Italian |
Contents | The exam consists of three main modules: -statistics for process design and control - design of machinery complements the information below contains argiments of PROGETTAZIONE E SICUREZZA DELLE MACCHINE |
Reference texts | D. Montgomery " Statistical process control" McGraw Hill |
Educational objectives | The exercise is to test the skills reached by the student to solve simple problems regarding the calculation of Gaussian compliance of products and of basic concepts of descriptive and inferential statistic. |
Prerequisites | Machine Desing subjects fondamental topics of mechanical engineering of the first laurea degree: static strength and fatigue of metallic materials: essential tension and stress in the beams and theory of De Saint Venant: essential |
Teaching methods | - frontal classroom lessons for all subjects in the classroom - classroom exercises in which students will be divided into groups of three and final collegial discussion |
Other information | See the official timetable or after the lesson in Terni |
Learning verification modality | Final exam regarding the topics covered by the modules of the course consisting of: initial exercise to be carried out under the supervision of Prof. Landi concerning argoments Module B (half an hour) Oral about 1 hour concerning the arguments of the two modules |
Extended program | The exam consists of due main modules: -statistics for process design and control - design of machinery complements |
Code | A001730 |
---|---|
CFU | 4 |
Teacher | Luca Landi |
Teachers |
|
Hours |
|
Learning activities | Caratterizzante |
Area | Ingegneria meccanica |
Academic discipline | ING-IND/14 |
Type of study-unit | Opzionale (Optional) |
Language of instruction | italian |
Contents | Please see: OTTIMIZZAZIONE DELLA PROGETTAZIONE DEL PRODOTTO |
Reference texts | Please see: OTTIMIZZAZIONE DELLA PROGETTAZIONE DEL PRODOTTO |
Educational objectives | Please see: OTTIMIZZAZIONE DELLA PROGETTAZIONE DEL PRODOTTO |
Prerequisites | Please see: OTTIMIZZAZIONE DELLA PROGETTAZIONE DEL PRODOTTO |
Teaching methods | Please see: OTTIMIZZAZIONE DELLA PROGETTAZIONE DEL PRODOTTO |
Other information | -- |
Learning verification modality | Please see: OTTIMIZZAZIONE DELLA PROGETTAZIONE DEL PRODOTTO |
Extended program | Please see: OTTIMIZZAZIONE DELLA PROGETTAZIONE DEL PRODOTTO - risk analysis according to the machinery directive will also be discussed |
Code | A001732 |
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CFU | 4 |
Teacher | Emanuela Speranzini |
Teachers |
|
Hours |
|
Learning activities | Affine/integrativa |
Area | Attività formative affini o integrative |
Academic discipline | ICAR/08 |
Type of study-unit | Opzionale (Optional) |
Language of instruction | Italian |
Contents | Instrument system and measurement methods for load, displacement and strain. Mechanical testing of materials: strength, elastic modulus / stiffness, failure mode, field, post-breking phase, displacements, strains, load, toughness. Testing of: reinforced concrete structures, masonry structures, wooden structures, glass structures. Monitoring systems for structures. |
Reference texts | 1 - E. O. DOEBELIN, Measurement systems, Application and design, McGraw-Hill, Kogakusha, Ltd., Tokyo. 2- B. BARBARITO , Verifica sperimentale delle strutture, Ed. UTET. In addition, the teacher will provide specially prepared educational material. This is available online: Unistudium-unipg. |
Educational objectives | The main aims of this teaching is to provide students with laboratory and testing procedures for construction and industrial materials. |
Prerequisites | Students are expected to have a competent knowledge of Structural Mechanics. |
Teaching methods | Lectures on all the subjects of the course and laboratory activities. |
Other information | Disabled students and/or with DSA, can contact the teacher of this course directly because she is the contact professor for disability and DSA in Engineering Department. |
Learning verification modality | Oral exam - of about 30 minutes long - concerning all the topics of the corse. The completeness of the answer, the argumentative rigor and the ownership of language will be assessed. |
Extended program | Instrumentation system and measurements methods. Mechanical testing of materials: strength (Yield, Ultimate) elastic modulus / Stiffness Yield Stress / Ultimate Strength, Failure Mode, Local Displacements or Strains, Toughness Stress / Strain Response Testing of reinforced concrete structures: -surface hardness methos -penetretation resistance methods -pullout test -beakoff test method -ultrasonic pulse velocity method -combined methods Testing of masonry structures: -double flat jack test -diagonal compression test -compression test -mortar analysis - sonic test - entoscopic test - thermographic surveys - tests with "ground-penetrating" radar. Testing of wood structures: -reological properties, defects, biotioc and a biotic attacks, shrinkage, humidity, knots, etc. -bending tests -compression tests -tensile tests. Surveys of existing wooden structures: test with penetrometer, ultrasonic tests, temperature and humidity tests. Bending strength of structural glass. Monitoring system: Vibrometry, optic fiber systems with Bragg sensors, digital image correlation systems. |