Ingegneria Edile-Architettura | ARCHITECTURAL DRAWING I

cod. 0660100006

ARCHITECTURAL DRAWING I

	0660100006
	DEPARTMENT OF CIVIL ENGINEERING
	EQF7
	BUILDING ENGINEERING - ARCHITECTURE
	2020/2021

PERCORSO COMMON

	OBBLIGATORIO
	YEAR OF COURSE 1
	YEAR OF DIDACTIC SYSTEM 2017
	ANNUALE

TEACHING UNITS

	SSD	CFU	HOURS	ACTIVITY	TYPE OF ACTIVITY
	ICAR/17	12	120	LESSONS	BASIC COMPULSORY SUBJECTS

PROFESSORS

	BARBARA MESSINA T Curriculum
	LIA MARIA PAPA Curriculum

	Objectives
	LEARNING OUTCOMES AND COMPETENCE TO BE ACQUIRED: TO LEARN, THROUGH THE BALANCED STUDY OF GEOMETRICAL MODELS OF THE THREE-DIMENSIONAL SPACE, THE FUNDAMENTAL ELEMENTS OF THE TECHNICAL DRAWING; TO ACQUIRE THE ABILITY TO EXPRESS IN CORRECT TERMS, AND TO GRAPHICALLY REPRESENT, THE CHARACTERISTIC ELEMENTS OF THE ARCHITECTURAL BUILDINGS AND CIVIL ENGINEERING. KNOWLEDGE AND UNDERSTANDING: UNDERSTANDING THE USED TERMINOLOGY IN CONCEPTUAL, LOGICAL AND PHYSICAL MODELS, OF THE GRAPHIC REPRESENTATION, OF THE DESIGN AND DEVELOPMENT METHODOLOGIES, OF THE FUNDAMENTAL CONCEPTS OF ARCHITECTURAL GRAPHIC LANGUAGE. APPLYING KNOWLEDGE AND UNDERSTANDING: KNOWING HOW TO DEVELOP, ACCORDING TO ENCODED CONVENTIONAL NORMS, GRAPHICAL MODELS OF ARCHITECTURE AND LANDSCAPE. MAKING JUDGEMENTS: KNOWING HOW TO IDENTIFY THE MOST APPROPRIATE METHODS FOR DRAWING CONSTRUCTIVE ELEMENTS OF ARCHITECTURAL SPACE, OPTIMIZING THE REPRESENTATION PROCESS ACCORDING TO THE ANALYZED CONTEXT. COMMUNICATION SKILLS: ABILITY TO WORK IN A TEAM AND TO VERBALLY AND GRAPHICALLY EXPLAIN AN ARGUMENT RELATED TO THE DISCUSSED TOPICS. LEARNING SKILLS: KNOWING HOW TO APPLY THE ACQUIRED KNOWLEDGE AND KNOW HOW TO LEARN INDEPENDENTLY THE NEW DEVELOPMENTS IN KNOWLEDGE.

LEARNING OUTCOMES AND COMPETENCE TO BE ACQUIRED:
TO LEARN, THROUGH THE BALANCED STUDY OF GEOMETRICAL MODELS OF THE THREE-DIMENSIONAL SPACE, THE FUNDAMENTAL ELEMENTS OF THE TECHNICAL DRAWING; TO ACQUIRE THE ABILITY TO EXPRESS IN CORRECT TERMS, AND TO GRAPHICALLY REPRESENT, THE CHARACTERISTIC ELEMENTS OF THE ARCHITECTURAL BUILDINGS AND CIVIL ENGINEERING.

KNOWLEDGE AND UNDERSTANDING:
UNDERSTANDING THE USED TERMINOLOGY IN CONCEPTUAL, LOGICAL AND PHYSICAL MODELS, OF THE GRAPHIC REPRESENTATION, OF THE DESIGN AND DEVELOPMENT METHODOLOGIES, OF THE FUNDAMENTAL CONCEPTS OF ARCHITECTURAL GRAPHIC LANGUAGE.

APPLYING KNOWLEDGE AND UNDERSTANDING:
KNOWING HOW TO DEVELOP, ACCORDING TO ENCODED CONVENTIONAL NORMS, GRAPHICAL MODELS OF ARCHITECTURE AND LANDSCAPE.

MAKING JUDGEMENTS:
KNOWING HOW TO IDENTIFY THE MOST APPROPRIATE METHODS FOR DRAWING CONSTRUCTIVE ELEMENTS OF ARCHITECTURAL SPACE, OPTIMIZING THE REPRESENTATION PROCESS ACCORDING TO THE ANALYZED CONTEXT.

COMMUNICATION SKILLS:
ABILITY TO WORK IN A TEAM AND TO VERBALLY AND GRAPHICALLY EXPLAIN AN ARGUMENT RELATED TO THE DISCUSSED TOPICS.

LEARNING SKILLS:
KNOWING HOW TO APPLY THE ACQUIRED KNOWLEDGE AND KNOW HOW TO LEARN INDEPENDENTLY THE NEW DEVELOPMENTS IN KNOWLEDGE.

	Prerequisites
	PREREQUISITES: FOR THE ACHIEVEMENT OF THE PREFIXED GOALS IS REQUIRED THE KNOWLEDGE OF EUCLIDEAN GEOMETRY. PREPARATORY COURSES: NONE.

	Contents
	THE TECHNICAL GRAPHIC REPRESENTATION (6 HOURS LESSON; 2 HOURS EXERCICES). THE FUNDAMENTALS OF GRAPHICAL GEOMETRIC REPRESENTATION (8 HOURS LESSON; 4 HOURS EXERCICES). GEOMETRIC MODELS OF THE THREE-DIMENSIONAL SPACE (26 HOURS LESSON; 18 HOURS EXERCICES). GRAPHICAL MODELS (10 HOURS LESSON; 4 HOURS EXERCICES). MORPHOLOGY AND REPRESENTATION OF CONSTRUCTIVE ELEMENTS FOR THE DESCRIPTION OF ARCHITECTURAL SPACE, UNTIL THE XIX CENTURY. GEOMETRIC INTERPRETATION AND REPRESENTATION OF THE CONSTITUTIVE SURFACES (20 HOURS LESSON; 12 HOURS EXERCICES). THE INFOGRAPHIC REPRESENTATION (10 HOURS LABORATORY ACTIVITIES).

Contents

THE TECHNICAL GRAPHIC REPRESENTATION (6 HOURS LESSON; 2 HOURS EXERCICES).

THE FUNDAMENTALS OF GRAPHICAL GEOMETRIC REPRESENTATION (8 HOURS LESSON; 4 HOURS EXERCICES).

GEOMETRIC MODELS OF THE THREE-DIMENSIONAL SPACE (26 HOURS LESSON; 18 HOURS EXERCICES).

GRAPHICAL MODELS (10 HOURS LESSON; 4 HOURS EXERCICES).

MORPHOLOGY AND REPRESENTATION OF CONSTRUCTIVE ELEMENTS FOR THE DESCRIPTION OF ARCHITECTURAL SPACE, UNTIL THE XIX CENTURY.
GEOMETRIC INTERPRETATION AND REPRESENTATION OF THE CONSTITUTIVE SURFACES (20 HOURS LESSON; 12 HOURS EXERCICES).

THE INFOGRAPHIC REPRESENTATION (10 HOURS LABORATORY ACTIVITIES).

	Teaching Methods
	THE COURSE PROVIDES LESSONS (7 CFU), EXERCISES (4 CFU) AND LABORATORY ACTIVITIES IN THE CLASSROOM (1 CFU). DURING THE EXERCISES IN THE CLASSROOM, STUDENTS ARE REQUIRED TO PROCESS DRAWINGS RELATED WITH THE THEORETICAL ARGUMENTS AND THEMES SHOWN DURING THE LESSONS. IN THE LABORATORIES THEY MUST ACQUIRE KNOWLEDGE OF THE INFOGRAPHIC REPRESENTATION’S EQUIPMENT (SOFTWARE FOR INFOGRAPHIC DRAWING ANG DIGITAL MODELING ). ATTENDANCE TO THE COURSE IS COMPULSORY: THE MINIMUM PERCENTAGE REQUIRED IS AT 70%. THE PROFESSOR WILL CHECK THE PERCENTAGE OF REQUIRED PRESENCE BY MEANS OF ELECTRONIC DETECTION IS THROUGH THE VERIFICATION OF THE EFFECTIVE PARTICIPATION IN EXERCITIVE AND LABORATORY ACTIVITIES, CONFIRMED BY THE SIGNATURE OF THE TEACHER ON THE PRODUCED IN THE CLASSROOM.

Teaching Methods

THE COURSE PROVIDES LESSONS (7 CFU), EXERCISES (4 CFU) AND LABORATORY ACTIVITIES IN THE CLASSROOM (1 CFU). DURING THE EXERCISES IN THE CLASSROOM, STUDENTS ARE REQUIRED TO PROCESS DRAWINGS RELATED WITH THE THEORETICAL ARGUMENTS AND THEMES SHOWN DURING THE LESSONS. IN THE LABORATORIES THEY MUST ACQUIRE KNOWLEDGE OF THE INFOGRAPHIC REPRESENTATION’S EQUIPMENT (SOFTWARE FOR INFOGRAPHIC DRAWING ANG DIGITAL MODELING ).
ATTENDANCE TO THE COURSE IS COMPULSORY: THE MINIMUM PERCENTAGE REQUIRED IS AT 70%. THE PROFESSOR WILL CHECK THE PERCENTAGE OF REQUIRED PRESENCE BY MEANS OF ELECTRONIC DETECTION IS THROUGH THE VERIFICATION OF THE EFFECTIVE PARTICIPATION IN EXERCITIVE AND LABORATORY ACTIVITIES, CONFIRMED BY THE SIGNATURE OF THE TEACHER ON THE PRODUCED IN THE CLASSROOM.

	Verification of learning
	WITH A FINAL EXAMINATION, WHICH PROVIDES GRAPHIC AND ORAL CHECK, ARE VERIFIED THE ACHIEVED RESULTS. THE GRAPHIC CHECK CONSISTS IN THE DEVELOPMENT OF A SERIES OF GRAPHS, THROUGH WHICH THE STUDENT SHOULD DEMONSTRATE TO KNOW, IN ACCORDANCE WITH CODIFIED CONVENTIONAL STANDARDS, GRAPHICAL MODELS OF ARCHITECTURE. IT IS REQUESTED ALTHOUGH AUTONOMY IN KNOWING HOW TO IDENTIFY MORE EFFECTIVE METHODS FOR THE COMPLETE UNDERSTANDING OF THE ANALYZED ELEMENTS, OPTIMIZING THE REPRESENTATION PROCESS ACCORDING TO THE CONTEXT. THE GRAPHIC TEST WILL BE CARRIED OUT WITH THE AID OF SOFTWARE FOR THE INFOGRAPHIC DRAWING. THE OVERCOMING OF THIS CHECK, TO WHICH NO VOTE IS GRANTED, GIVES ACCESS TO THE ORAL CHECK. THE ORAL CKECK CONSISTS IN A DISCUSSION ON THE ELABORATES PRODUCED IN THE GRAPHIC TEST, ON THE EXERCISES AND LABORATORY ACTIVITIES. IN THE ORAL CHECK THE STUDENT SHOULD DEMONSTRATE TO HAVE LEARNED THE FUNDAMENTAL ELEMENTS OF TECHNICAL GRAPHIC LANGUAGE, NECESSARY FOR THE FORMULATION AND READING OF THE GRAPHIC MODELS OF ARCHITECTURE AND THE TERRITORY, BOTH WITH REFERENCE TO THE PROJECT REALITY (DESIGN DRAWING) AND THAT BUILT (SURVEY DRAWING). IT WILL ALSO SHOW THE MASTERY OF THE REPRESENTATION METHODS AND THE GRAPHIC CONVENTIONS NECESSARY TO REPRESENT THE BUILDING SPACE, THE TERMINOLOGY USED IN THE CONCEPTUAL, LOGICAL AND PHYSICAL MODELS OF THE GRAPHIC REPRESENTATION, THE PROJECT AND DEVELOPMENT METHODOLOGIES, THE FUNDAMENTAL CONCEPTS OF THE ARCHITECTURAL GRAPHIC LANGUAGE. THE LEVEL OF EVALUATION OF THE TESTS TAKES INTO ACCOUNT THE RELEVANCE OF THE METHODS USED, THE COMPLETENESS AND ACCURACY OF THE RESPONSES, AS WELL AS THE ABILITY TO ORALLY AND GRAPHICLY PRESENT THE TREATED ARGUMENTS. THE MINIMUM LEVEL OF EVALUATION (18) IS ASSIGNED WHEN THE STUDENT DEMONSTRATES A PARTIAL KNOWLEDGE OF THE PROPOSED METHODS AND GRAPHIC PROCEDURES, AND HAS LIMITED KNOWLEDGE OF THE BASIC FUNDAMENTALS OF THE VARIOUS TOPICS ADDRESSED. THE MAXIMUM EVALUATION LEVEL (30) IS ASSIGNED WHEN THE STUDENT DEMONSTRATES A COMPLETE AND IN-DEPTH KNOWLEDGE OF THE PROPOSED GRAPHIC METHODS AND PROCEDURES, AND IS ABLE TO SOLVE THE PROBLEMS FACED BY ARRIVING IN AN EFFICIENT AND GRAPHICALLY ACCURATE WAY TO THE SOLUTION, SHOWING A FULL CAPACITY TO APPLY THE THEORETICAL PRESUPPOSITIONS IN PRACTICE. THE PRAISE IS ATTRIBUTED WHEN THE CANDIDATE DEMONSTRATES AN ABSOLUTE MASTERY OF THE THEORETICAL AND APPLICATIVE CONTENTS, AND IS ABLE TO PRESENT THE TOPICS WITH CONSIDERABLE LANGUAGE PROPERTIES, BEING ABLE TO ELABORATE GEOMETRIC MODELS AND GRAPHS INDEPENDENTLY ALSO WITH REFERENCE TO COMPLEX PROBLEMS NOT TREATED BY THE PROFESSOR. AT MID COURSE (JANUARY-FEBRUARY), THE TEACHER CAN EVALUATE THE OPPORTUNITY TO CARRY OUT AN ONGOING GRAPHICS TEST WITH PURPOSE OF SELF-EVALUATION BY THE STUDENTS.

Verification of learning

WITH A FINAL EXAMINATION, WHICH PROVIDES GRAPHIC AND ORAL CHECK, ARE VERIFIED THE ACHIEVED RESULTS.
THE GRAPHIC CHECK CONSISTS IN THE DEVELOPMENT OF A SERIES OF GRAPHS, THROUGH WHICH THE STUDENT SHOULD DEMONSTRATE TO KNOW, IN ACCORDANCE WITH CODIFIED CONVENTIONAL STANDARDS, GRAPHICAL MODELS OF ARCHITECTURE.
IT IS REQUESTED ALTHOUGH AUTONOMY IN KNOWING HOW TO IDENTIFY MORE EFFECTIVE METHODS FOR THE COMPLETE UNDERSTANDING OF THE ANALYZED ELEMENTS, OPTIMIZING THE REPRESENTATION PROCESS ACCORDING TO THE CONTEXT. THE GRAPHIC TEST WILL BE CARRIED OUT WITH THE AID OF SOFTWARE FOR THE INFOGRAPHIC DRAWING. THE OVERCOMING OF THIS CHECK, TO WHICH NO VOTE IS GRANTED, GIVES ACCESS TO THE ORAL CHECK.

THE ORAL CKECK CONSISTS IN A DISCUSSION ON THE ELABORATES PRODUCED IN THE GRAPHIC TEST, ON THE EXERCISES AND LABORATORY ACTIVITIES.
IN THE ORAL CHECK THE STUDENT SHOULD DEMONSTRATE TO HAVE LEARNED THE FUNDAMENTAL ELEMENTS OF TECHNICAL GRAPHIC LANGUAGE, NECESSARY FOR THE FORMULATION AND READING OF THE GRAPHIC MODELS OF ARCHITECTURE AND THE TERRITORY, BOTH WITH REFERENCE TO THE PROJECT REALITY (DESIGN DRAWING) AND THAT BUILT (SURVEY DRAWING). IT WILL ALSO SHOW THE MASTERY OF THE REPRESENTATION METHODS AND THE GRAPHIC CONVENTIONS NECESSARY TO REPRESENT THE BUILDING SPACE, THE TERMINOLOGY USED IN THE CONCEPTUAL, LOGICAL AND PHYSICAL MODELS OF THE GRAPHIC REPRESENTATION, THE PROJECT AND DEVELOPMENT METHODOLOGIES, THE FUNDAMENTAL CONCEPTS OF THE ARCHITECTURAL GRAPHIC LANGUAGE.

THE LEVEL OF EVALUATION OF THE TESTS TAKES INTO ACCOUNT THE RELEVANCE OF THE METHODS USED, THE COMPLETENESS AND ACCURACY OF THE RESPONSES, AS WELL AS THE ABILITY TO ORALLY AND GRAPHICLY PRESENT THE TREATED ARGUMENTS.
THE MINIMUM LEVEL OF EVALUATION (18) IS ASSIGNED WHEN THE STUDENT DEMONSTRATES A PARTIAL KNOWLEDGE OF THE PROPOSED METHODS AND GRAPHIC PROCEDURES, AND HAS LIMITED KNOWLEDGE OF THE BASIC FUNDAMENTALS OF THE VARIOUS TOPICS ADDRESSED.
THE MAXIMUM EVALUATION LEVEL (30) IS ASSIGNED WHEN THE STUDENT DEMONSTRATES A COMPLETE AND IN-DEPTH KNOWLEDGE OF THE PROPOSED GRAPHIC METHODS AND PROCEDURES, AND IS ABLE TO SOLVE THE PROBLEMS FACED BY ARRIVING IN AN EFFICIENT AND GRAPHICALLY ACCURATE WAY TO THE SOLUTION, SHOWING A FULL CAPACITY TO APPLY THE THEORETICAL PRESUPPOSITIONS IN PRACTICE.
THE PRAISE IS ATTRIBUTED WHEN THE CANDIDATE DEMONSTRATES AN ABSOLUTE MASTERY OF THE THEORETICAL AND APPLICATIVE CONTENTS, AND IS ABLE TO PRESENT THE TOPICS WITH CONSIDERABLE LANGUAGE PROPERTIES, BEING ABLE TO ELABORATE GEOMETRIC MODELS AND GRAPHS INDEPENDENTLY ALSO WITH REFERENCE TO COMPLEX PROBLEMS NOT TREATED BY THE PROFESSOR.

AT MID COURSE (JANUARY-FEBRUARY), THE TEACHER CAN EVALUATE THE OPPORTUNITY TO CARRY OUT AN ONGOING GRAPHICS TEST WITH PURPOSE OF SELF-EVALUATION BY THE STUDENTS.

	Texts
	L. BENEVOLO, INTRODUZIONE ALL’ARCHITETTURA, LATERZA, BARI 1960. V. CARDONE, GASPARD MONGE, PADRE DELL'INGEGNERE CONTEMPORANEO, DEI, ROMA 2017; V. CARDONE, IL TUFO NUDO NELL’ARCHITETTURA NAPOLETANA, CUEN, NAPOLI 1990. V. CARDONE, MODELLI GRAFICI DELL’ARCHITETTURA E DEL TERRITORIO, MAGGIOLI EDITORE, BOLOGNA 2013. V. CARDONE, INTORNO AD ALCUNE CARATTERISTICHE DELLA RAPPRESENTAZIONE INFOGRAFICA, IN C. CARLUCCIO E L.M. PAPA (A CURA DI) ‘TEMI E PROBLEMI DELLA RAPPRESENTAZIONE GRAFICA’, CUES, SALERNO 2000. V. CARDONE, MODELLI GRAFICI E MODELLI INFORMATICI, IN M. DELL’AQUILA E A. DE ROSA (A CURA DI), ‘PROIEZIONE E IMMAGINE. LA LOGICA DELLA RAPPRESENTAZIONE’, ARTE TIPOGRAFICA, NAPOLI 2000. V. CARDONE, REALTÀ, MODELLO, IMMAGINE NELLA RAPPRESENTAZIONE INFOGRAFICA DELLA REALTÀ, IN M. DELL’AQUILA E A. DE ROSA (A CURA DI) ‘REALTÀ VIRTUALE O VISIONE REALE?’, ARTE TIPOGRAFICA, NAPOLI 2002. V. CARDONE, VIAGGIATORI D’ARCHITETTURA IN ITALIA. DA BRUNELLESCHI A CHARLES GARNIER, UNIVERSITÀ DEGLI STUDI DI SALERNO, IN CO-EDIZIONE CON LIBRERIA UNIVERSITARIA.IT, PADOVA, 2014. M. DOCCI, MANUALE DI DISEGNO ARCHITETTONICO, LATERZA, BARI 1990. B. MESSINA, ESERCITAZIONI DI DISEGNO, VOL. I, MAGGIOLI, BOLOGNA 2013. W. MITCHELL - M. MC CULLOGH, DIGITAL DESIGN MEDIA, MC GRAW-HILL, MILANO 1996. NORME UNI PER IL DISEGNO TECNICO: UNI ISO 128-24:2006, DISEGNI TECNICI - PRINCIPI GENERALI DI RAPPRESENTAZIONE - PARTE 24: LINEE UTILIZZATE NEI DISEGNI DI MECCANICA E DI INGEGNERIA INDUSTRIALE; UNI EN ISO 5455:1998, DISEGNI TECNICI – SCALE; UNI EN ISO 7200:2007, DOCUMENTAZIONE TECNICA DI PRODOTTO - AREE DEI DATI NEI RIQUADRI DELLE ISCRIZIONI E DELLE INTESTAZIONI DEI DOCUMENTI; UNI EN ISO 5456-2:2001, DISEGNI TECNICI - METODI DI PROIEZIONE - RAPPRESENTAZIONI ORTOGRAFICHE; UNI ISO 128-30:2006, DISEGNI TECNICI - PRINCIPI GENERALI DI RAPPRESENTAZIONE - PARTE 30: CONVENZIONI FONDAMENTALI PER LE VISTE; UNI ISO 128-40:2006, DISEGNI TECNICI - PRINCIPI GENERALI DI RAPPRESENTAZIONE - PARTE 40: CONVENZIONI FONDAMENTALI PER TAGLI E SEZIONI; UNI ISO 128-44:2006, DISEGNI TECNICI - PRINCIPI GENERALI DI RAPPRESENTAZIONE - PARTE 44: SEZIONI NEI DISEGNI DI INGEGNERIA MECCANICA E INDUSTRIALE.

Texts

L. BENEVOLO, INTRODUZIONE ALL’ARCHITETTURA, LATERZA, BARI 1960.
V. CARDONE, GASPARD MONGE, PADRE DELL'INGEGNERE CONTEMPORANEO, DEI, ROMA 2017;
V. CARDONE, IL TUFO NUDO NELL’ARCHITETTURA NAPOLETANA, CUEN, NAPOLI 1990.
V. CARDONE, MODELLI GRAFICI DELL’ARCHITETTURA E DEL TERRITORIO, MAGGIOLI EDITORE, BOLOGNA 2013.
V. CARDONE, INTORNO AD ALCUNE CARATTERISTICHE DELLA RAPPRESENTAZIONE INFOGRAFICA, IN C. CARLUCCIO E L.M. PAPA (A CURA DI) ‘TEMI E PROBLEMI DELLA RAPPRESENTAZIONE GRAFICA’, CUES, SALERNO 2000.
V. CARDONE, MODELLI GRAFICI E MODELLI INFORMATICI, IN M. DELL’AQUILA E A. DE ROSA (A CURA DI), ‘PROIEZIONE E IMMAGINE. LA LOGICA DELLA RAPPRESENTAZIONE’, ARTE TIPOGRAFICA, NAPOLI 2000.
V. CARDONE, REALTÀ, MODELLO, IMMAGINE NELLA RAPPRESENTAZIONE INFOGRAFICA DELLA REALTÀ, IN M. DELL’AQUILA E A. DE ROSA (A CURA DI) ‘REALTÀ VIRTUALE O VISIONE REALE?’, ARTE TIPOGRAFICA, NAPOLI 2002.
V. CARDONE, VIAGGIATORI D’ARCHITETTURA IN ITALIA. DA BRUNELLESCHI A CHARLES GARNIER, UNIVERSITÀ DEGLI STUDI DI SALERNO, IN CO-EDIZIONE CON LIBRERIA UNIVERSITARIA.IT, PADOVA, 2014.
M. DOCCI, MANUALE DI DISEGNO ARCHITETTONICO, LATERZA, BARI 1990.
B. MESSINA, ESERCITAZIONI DI DISEGNO, VOL. I, MAGGIOLI, BOLOGNA 2013.
W. MITCHELL - M. MC CULLOGH, DIGITAL DESIGN MEDIA, MC GRAW-HILL, MILANO 1996.
NORME UNI PER IL DISEGNO TECNICO:
UNI ISO 128-24:2006, DISEGNI TECNICI - PRINCIPI GENERALI DI RAPPRESENTAZIONE - PARTE 24: LINEE UTILIZZATE NEI DISEGNI DI MECCANICA E DI INGEGNERIA INDUSTRIALE;
UNI EN ISO 5455:1998, DISEGNI TECNICI – SCALE;
UNI EN ISO 7200:2007, DOCUMENTAZIONE TECNICA DI PRODOTTO - AREE DEI DATI NEI RIQUADRI DELLE ISCRIZIONI E DELLE INTESTAZIONI DEI DOCUMENTI;
UNI EN ISO 5456-2:2001, DISEGNI TECNICI - METODI DI PROIEZIONE - RAPPRESENTAZIONI ORTOGRAFICHE;
UNI ISO 128-30:2006, DISEGNI TECNICI - PRINCIPI GENERALI DI RAPPRESENTAZIONE - PARTE 30: CONVENZIONI FONDAMENTALI PER LE VISTE;
UNI ISO 128-40:2006, DISEGNI TECNICI - PRINCIPI GENERALI DI RAPPRESENTAZIONE - PARTE 40: CONVENZIONI FONDAMENTALI PER TAGLI E SEZIONI;
UNI ISO 128-44:2006, DISEGNI TECNICI - PRINCIPI GENERALI DI RAPPRESENTAZIONE - PARTE 44: SEZIONI NEI DISEGNI DI INGEGNERIA MECCANICA E INDUSTRIALE.

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