Rosa PENNA | INNOVATIVE MATERIALS AND TESTING

cod. 0622100022

INNOVATIVE MATERIALS AND TESTING

	0622100022
	DIPARTIMENTO DI INGEGNERIA CIVILE
	EQF7
	CIVIL ENGINEERING
	2018/2019

CURRICULUM INGEGNERIA STRUTTURALE E GEOTECNICA

	OBBLIGATORIO
	YEAR OF COURSE 2
	YEAR OF DIDACTIC SYSTEM 2017
	SECONDO SEMESTRE

TEACHING UNITS

	SSD	CFU	HOURS	ACTIVITY	TYPE OF ACTIVITY
	ICAR/08	6	60	LESSONS	COMPULSORY SUBJECTS, CHARACTERISTIC OF THE CLASS

PROFESSORS

	GEMINIANO MANCUSI T Curriculum
	ROSA PENNA Curriculum

	Objectives
	THE MAIN PURPOSE OF THE COURSE DEALS WITH THE FUNDAMENTALS OF THEORETICAL AND EXPERIMENTAL MECHANICS OF COMPOSITE MATERIALS. ARE ALSO COVERED THE ENGINEERING ASPECTS RELATING TO THE SHAPE MEMORY ALLOYS, STRUCTURAL GLASSES AND MATERIALS WITH PERIODIC STRUCTURE. THE LEARNING OUTCOMES INCLUDE: - THEORETICAL ASPECTS OF THE MECHANICAL BEHAVIOR OF COMPOSITE MATERIALS AND THEIR FAILURE CRITERIA; - COHESIVE FORMULATIONS FOR MODELING THE STRUCTURAL ADHESION; - MAIN ASPECTS OF THE INTERACTION BETWEEN STRUCTURAL ELEMENTS OF DIFFERENT MATERIAL BONDED BY MEANS OF COHESIVE INTERFACES; - THEORETICAL ASPECTS OF THE BEHAVIOR OF SHAPE MEMORY ALLOYS; - THEORETICAL ASPECTS OF THE MECHANICAL BEHAVIOR OF STRUCTURAL GLASSES; - DYNAMIC BEHAVIOR OF PERIODIC MATERIALS IN TWO-DIMENSIONAL DOMAIN. THE MAIN SKILLS ACQUIRED INCLUDE: - ABILITY TO CHARACTERIZE EXPERIMENTALLY THE PARAMETERS OF THE CONSTITUTIVE LAWS FOR COMPOSITE MATERIALS; - ABILITY TO APPLY SIMPLE NUMERICAL MODELS FOR PREDICTING THE STRUCTURAL BEHAVIOR OF AN ADHESIVE JOINT; - ABILITY TO DESIGN THE REINFORCEMENT / CONFINEMENT OF EXISTING STRUCTURES BY USING COMPOSITE MATERIALS; - ABILITY TO DESIGN SIMPLE STRUCTURAL SOLUTIONS BY USING STRUCTURAL GLASSES IN A LAYERED CONFIGURATION. - ABILITY TO ANALYZE THE DYNAMIC RESPONSE OF MATERIALS WITH A 2D PERIODIC MICROSTRUCTURE. -ABILITY TO SUMMARIZE WITHIN A TECHNICAL REPORT THE CONCEPT, THE APPROACH, THE ANALYSIS AND THE RESULTS OF AN ENGINEERING PROBLEM WITH INNOVATIVE MATERIALS - ABILITY TO SEARCH FOR BIBLIOGRAFIC NOVEL RESULTS WITHIN THE CONTEXT OF INNOVATIVE STRUCTURAL MATERIALS BY MEANS OF THE MOST COMMON TECHNICAL-SCIENTIFIC DATABASES (I.E. SCOPUS)

THE MAIN PURPOSE OF THE COURSE DEALS WITH THE FUNDAMENTALS OF THEORETICAL AND EXPERIMENTAL MECHANICS OF COMPOSITE MATERIALS. ARE ALSO COVERED THE ENGINEERING ASPECTS RELATING TO THE SHAPE MEMORY ALLOYS, STRUCTURAL GLASSES AND MATERIALS WITH PERIODIC STRUCTURE.
THE LEARNING OUTCOMES INCLUDE:
- THEORETICAL ASPECTS OF THE MECHANICAL BEHAVIOR OF COMPOSITE MATERIALS AND THEIR FAILURE CRITERIA;
- COHESIVE FORMULATIONS FOR MODELING THE STRUCTURAL ADHESION;
- MAIN ASPECTS OF THE INTERACTION BETWEEN STRUCTURAL ELEMENTS OF DIFFERENT MATERIAL BONDED BY MEANS OF COHESIVE INTERFACES;
- THEORETICAL ASPECTS OF THE BEHAVIOR OF SHAPE MEMORY ALLOYS;
- THEORETICAL ASPECTS OF THE MECHANICAL BEHAVIOR OF STRUCTURAL GLASSES;
- DYNAMIC BEHAVIOR OF PERIODIC MATERIALS IN TWO-DIMENSIONAL DOMAIN.

THE MAIN SKILLS ACQUIRED INCLUDE:
- ABILITY TO CHARACTERIZE EXPERIMENTALLY THE PARAMETERS OF THE CONSTITUTIVE LAWS FOR COMPOSITE MATERIALS;
- ABILITY TO APPLY SIMPLE NUMERICAL MODELS FOR PREDICTING THE STRUCTURAL BEHAVIOR OF AN ADHESIVE JOINT;
- ABILITY TO DESIGN THE REINFORCEMENT / CONFINEMENT OF EXISTING STRUCTURES BY USING COMPOSITE MATERIALS;
- ABILITY TO DESIGN SIMPLE STRUCTURAL SOLUTIONS BY USING STRUCTURAL GLASSES IN A LAYERED CONFIGURATION.
- ABILITY TO ANALYZE THE DYNAMIC RESPONSE OF MATERIALS WITH A 2D PERIODIC MICROSTRUCTURE.
-ABILITY TO SUMMARIZE WITHIN A TECHNICAL REPORT THE CONCEPT, THE APPROACH, THE ANALYSIS AND THE RESULTS OF AN ENGINEERING PROBLEM WITH INNOVATIVE MATERIALS
- ABILITY TO SEARCH FOR BIBLIOGRAFIC NOVEL RESULTS WITHIN THE CONTEXT OF INNOVATIVE STRUCTURAL MATERIALS BY MEANS OF THE MOST COMMON TECHNICAL-SCIENTIFIC DATABASES (I.E. SCOPUS)

	Prerequisites
	AN EXCELLENT MATHEMATICS AND MECHANICS KNOWLEDGE IS REQUIRED. THIS CORRESPONDS TO THE FOLLOWING CONDITIONS: - A GOOD KNOWLEDGE IN THE FIELD OF PARTIAL DIFFERENTIAL EQUATIONS; - A GOOD KNOWLEDGE IN THE FIELD OF THE INTEGRALS THEORY; - A GOOD KNOWLEDGE IN THE FIELD OF DIFFERENTIAL GEOMETRY. - A DEEP KNOWLEDGE IN THE FIELD OF STRUCTURAL MECHANICAL TOPICS COVERED IN THE COURSES OF "SCIENZA DELLE COSTRUZIONI II" AND "TECNICA DELLE COSTRUZIONI I".

Prerequisites

AN EXCELLENT MATHEMATICS AND MECHANICS KNOWLEDGE IS REQUIRED. THIS CORRESPONDS TO THE FOLLOWING CONDITIONS:
- A GOOD KNOWLEDGE IN THE FIELD OF PARTIAL DIFFERENTIAL EQUATIONS;
- A GOOD KNOWLEDGE IN THE FIELD OF THE INTEGRALS THEORY;
- A GOOD KNOWLEDGE IN THE FIELD OF DIFFERENTIAL GEOMETRY.
- A DEEP KNOWLEDGE IN THE FIELD OF STRUCTURAL MECHANICAL TOPICS COVERED IN THE COURSES OF "SCIENZA DELLE COSTRUZIONI II" AND "TECNICA DELLE COSTRUZIONI I".

	Contents
	1) MANUFACTURING TECHNOLOGY OF COMPOSITE MATERIALS. ORTHOTROPIC LINEAR ELASTIC EQUATIONS. ELASTIC MODULI. RELEVANT CASES CONCERNING COMPOSITE LAMINATES AND PULTRUDED MEMBERS. FAILURE CRITERIA. 2) BASIC CONCEPTS OF A REINFORCEMENT / CONFINEMENT PROJECT FOR R.C. AND MASONRY MAMBERS. EVALUATION OF THE DELAMINATION LIMITS. 3) INTERFACE BEHAVIOR. BASIC CONCEPTS OF THE MECHANICS OF COHESIVE FRACTURE. NUMERICAL MODELS FOR ADHESIVE JOINTS. ANALYSIS FOR MODE I/II AND MIXED MODE OF FRACTURE. 4) STRUCTURAL USE OF MODIFIED CONCRETE WITH THE ADDITION OF METALLIC OR PLASTIC FIBERS. EXPERIMENTAL CHARACTERIZATION. PREDICTIVE MODELS OF THE CONSTITUTIVE BEHAVIOR. ENGINEERING APPLICATIONS. 5) USE OF FRP BARS AS INTERNAL REINFORCEMENT OF CONCRETE MEMBERS. ENGINEERING APPLICATIONS. 6) NON LINEAR (GEOMETRIC) BEHAVIOR OF THIN-WALLED COMPOSITE PULTRUDED PROFILES. SHEAR DEFORMABILITY AND CREEP BEHAVIOR. 7) BASIC CONCEPTS OF THE CONSTITUTIVE BEHAVIOR OF SHAPE MEMORY ALLOYS. APPLICATIONS IN THE ENGINEERING FIELD. 8) MECHANICAL PROBLEMS OF STRUCTURAL GLASSES. APPLICATIONS IN THE ENGINEERING FIELD. 9) MICROSTRUCTURED MATERIALS. PERIODIC MATERIALS. APPLICATIONS IN THE ENGINEERING FIELD (ONLY 2D PROBLEMS)

Contents

1) MANUFACTURING TECHNOLOGY OF COMPOSITE MATERIALS.
ORTHOTROPIC LINEAR ELASTIC EQUATIONS. ELASTIC MODULI. RELEVANT CASES CONCERNING COMPOSITE LAMINATES AND PULTRUDED MEMBERS. FAILURE CRITERIA.

2) BASIC CONCEPTS OF A REINFORCEMENT / CONFINEMENT PROJECT FOR R.C. AND MASONRY MAMBERS. EVALUATION OF THE DELAMINATION LIMITS.

3) INTERFACE BEHAVIOR. BASIC CONCEPTS OF THE MECHANICS OF COHESIVE FRACTURE. NUMERICAL MODELS FOR ADHESIVE JOINTS. ANALYSIS FOR MODE I/II AND MIXED MODE OF FRACTURE.

4) STRUCTURAL USE OF MODIFIED CONCRETE WITH THE ADDITION OF METALLIC OR PLASTIC FIBERS. EXPERIMENTAL CHARACTERIZATION. PREDICTIVE MODELS OF THE CONSTITUTIVE BEHAVIOR.
ENGINEERING APPLICATIONS.

5) USE OF FRP BARS AS INTERNAL REINFORCEMENT OF CONCRETE MEMBERS. ENGINEERING APPLICATIONS.

6) NON LINEAR (GEOMETRIC) BEHAVIOR OF THIN-WALLED COMPOSITE PULTRUDED PROFILES. SHEAR DEFORMABILITY AND CREEP BEHAVIOR.

7) BASIC CONCEPTS OF THE CONSTITUTIVE BEHAVIOR OF SHAPE MEMORY ALLOYS. APPLICATIONS IN THE ENGINEERING FIELD.

8) MECHANICAL PROBLEMS OF STRUCTURAL GLASSES. APPLICATIONS IN THE ENGINEERING FIELD.

9) MICROSTRUCTURED MATERIALS. PERIODIC MATERIALS.
APPLICATIONS IN THE ENGINEERING FIELD (ONLY 2D PROBLEMS)

	Teaching Methods
	THE COURSE COVERS THEORETICAL AND PRACTICAL LESSONS FOR A TOTAL OF 60 HOURS. THEORETICAL LESSONS ARE 50% OF THE TOTAL. THE REMAINING 50% DEALS WITH NUMERICAL EXERCISES AND LABORATORY ACTIVITIES.

	Verification of learning
	THE FINAL TEST CONSISTS OF A WRITTEN CLASSWORK AND AN ORAL INTERVIEW. THE WRITTEN TEST IS THREE HOURS LONG AND DEALS WITH AN ENGINEERING PROBLEM WITHIN THE CONTEXT OF STRUCTURAL REINFORCEMENT/CONFINEMENT ACCORDING TO CNR-DT 200. THE ORAL INTERVIEW COVERS THE THEORETICAL ASPECTS OF THE DIFFERENT CLASS MODULES AND IS AIMED AT VERIFYING THE APPROPRIATE LANGUAGE OF THE STRUDENT, THE RIGOROUS APPROACH AND THE ABILITY TO SUMMARIZE RELEVANT ISSUES

Verification of learning

THE FINAL TEST CONSISTS OF A WRITTEN CLASSWORK AND AN ORAL INTERVIEW.
THE WRITTEN TEST IS THREE HOURS LONG AND DEALS WITH AN ENGINEERING PROBLEM WITHIN THE CONTEXT OF STRUCTURAL REINFORCEMENT/CONFINEMENT ACCORDING TO CNR-DT 200.
THE ORAL INTERVIEW COVERS THE THEORETICAL ASPECTS OF THE DIFFERENT CLASS MODULES AND IS AIMED AT VERIFYING THE APPROPRIATE LANGUAGE OF THE STRUDENT, THE RIGOROUS APPROACH AND THE ABILITY TO SUMMARIZE RELEVANT ISSUES

	Texts
	STUDENTS ARE INVITED TO READ THE FOLLOWING TECHNICAL DOCUMENTS EDITED BY C.N.R. AND VISIBLE ON THE WEB SITE WWW.CNR.IT: DT 200/2012; DT 201/2005; DT 202/2005; DT 203/2006; DT 204/2006; DT 205/2007. FOR THE TOPIC CONCERNING THE PERIODIC MATERIALS, THE FOLLOWING BOOK IS SUGGESTED: GIBSON, L.J .; ASHBY, M.F., CELLULAR SOLIDS: STRUCTURE AND PROPERTIES. CAMBRIDGE UNIVERSITY PRESS, CAMBRIDGE, 1997.

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Rosa PENNA | INNOVATIVE MATERIALS AND TESTING