MATERIALI AVANZATI PER I BENI CULTURALI
Academic Year 2024/2025 - Teacher: ANNA LUCIA PELLEGRINOExpected Learning Outcomes
1. Knowledge and understanding of the materials and technologies covered in the course.
2. Ability to connect the characterization techniques for structural, thermal and morphological analysis of the materials.
3. Ability to communicate the concepts and the results using appropriate terminology. Knowing how to interact with the teacher and students in a constructive way, especially during the experimental work carried out in a group.
4. Skills in taking notes, selecting and collecting information based on their importance and priority.
5. Autonomy in the laboratory experiences and in the collection and processing of experimental data.
Information for students with disabilities and/or SLD
To guarantee equal opportunities and in compliance with the laws in force, interested students can request a personal interview in order to plan any compensatory measures, based on the educational objectives and specific needs.
Course Structure
Frontal teaching lessons (6 CFU) and laboratory experiments (3 CFU).
In case of online or mixed (online/on site) lectures, modifications may be introduced to lectures in order to comply with the program reported in the syllabus.
Required Prerequisites
Basic knowledge of inorganic chemistry, organic chemistry and physical chemistry. Knowledge of laboratory safety rules and how to perform the basic operations in the laboratory.
Attendance of Lessons
Attendance of lesson is required in accordance with the regulation of CdS.
Detailed Course Content
Glass based materials: minerals and glass technologies: oxides, modifying oxides, chromatic elements. Glass degradation: devitrification, leaching and corrosion.
Ceramics: definition and history. Phyllosilicates and natural clays. Furnace process technologies and related chemical reactions. Determination of the equivalent cooking temperature. Stoneware and porcelain. Ceramic decoration.
Pigments: Painting materials and painting techniques. The color of the materials. Pigments and dyes. Interactions and compatibility between pigments and binders. Paints and their uses.
Metals, alloys and state diagrams. Overview of the most important metals and alloys. Copper and copper alloys: bronze, copper-tin phase diagram; the disease of bronze. Brass and the role of zinc. Iron and steel, minerals and the first technologies. Corrosion of iron. Lead and its uses, the lead parasite. Gold, silver and their alloys.
Surface modification techniques on advanced materials in architecture. Molecules of interest for anti-fogging and self-cleaning surfaces. Basic principles of the self-assembled monolayer from solution and molecular layer deposition from the vapor phase.
Materials characterization techniques: Basic principles and applications of thermoluminescence. Thermal analysis of materials using differential scanning calorimetry and thermogravimetry. X-ray diffraction (XRD) for the identification of phases and structural study of inorganic materials. Basic principles and applications of optical microscopy and scanning electron microscopy (SEM) and energy dispersion X-ray microanalysis (EDX). Infrared spectrophotometry in attenuated total reflectance for the in situ characterization of solid materials.
Laboratory experiences:
-Synthesis of dyes: synthesis of carminic acid, its thermal and structural characterization and the use for coloring
- Synthesis of pigments: synthesis of malachite and its characterization.
-Growth of inorganic oxide surfaces (NiO and TiO2) with solution methods and dipping, spraying and spin-coating deposition processes.
-Synthesis of glass materials, surface sputtering and their SEM-EDX characterization.
-Modification of inorganic oxide surfaces with anchoring of organic molecules from the vapor phase via MLD (molecular layer deposition).
Textbook Information
- Mark Pollard and Carl Heron, Archaeological Chemistry. The Royal Society of Chemistry.
- David Brandon and Wayne D. Kaplan, Microstructural characterization of materials, Wiley.
- Slides
Course Planning
Subjects | Text References | |
---|---|---|
1 | Glass materials, ceramics, alloys and pigments | Mark Pollard and Carl Heron, Archaeological Chemistry. The Royal Society of Chemistry. |
2 | Surface modification techniques on advanced materials in architecture. | slides |
3 | Materials characterization techniques | David Brandon and Wayne D. Kaplan, Microstructural characterization of materials, Wiley |
Learning Assessment
Learning Assessment Procedures
Oral exam for the theoretical concepts covered in the course and evaluation of laboratory experiences through written reports. In case of needs, the exams could also be carried out on line.
Examples of frequently asked questions and / or exercises
- Description of glass materials and ceramics,
- Overview of metals, alloys and state diagrams,
- Surface modification techniques on advanced materials through vapor phase and solution approaches,
- Materials characterization techniques.