A Matter of Material:Exploring the Value of the Museum of Design in Plastics

This thesis, A Matter of Material: Exploring the Value of the Museum of Design in Plastics (MoDiP), sets out to understand how a museum focusing on a single material family can contribute to the societal and museological comprehension of design in plastics. It looks at how museums communicate a group of materials that audiences believe they know and understand, yet that knowledge and understanding may not be the whole story. It explores why it might seem strange that a museum dedicated to plastics even exists, by looking at what museums are, what they have been traditionally, and what they can become. The contribution to knowledge that this research demonstrates is in the previously unwritten history and close study of MoDiP which is an, as yet, under researched resource. My role as Curator of MoDiP has provided an empirical knowledge and expertise that grounds this contribution in my professional practice. This has enabled an opening of a knowledge embedded in the role of a museum of a contested and devalued material, illuminating the problem of plastics in museums. The study inserts plastics, and the specific collection of them by MoDiP, into the relational museological theory to discover the value of the museum’s practice where complexity is added to the debate about plastics in the current climate. The particular interest of the triangular relationships between audiences, museums, and plastics is demonstrated using new diagrams, a tradition of museum studies especially used by Susan Pearce. The six original diagrams within the thesis are used to illustrate new ideas and concepts. This research uses the tools of case study as a methodology to make a close study of the functions and collections of MoDiP, and in contrast the Pinto Collection of wooden objects at Birmingham Museums Trust. These tools include interviewing employees, studying documents, and observing practices, and sit alongside the curatorial practices of collections and object research, audience sampling through surveys and social media, as well as visiting other museums and exhibitions and reflecting on such experiences. By using these methods, this work investigates the material qualities of plastics, alongside other materials, and looks at why the placement of some materials within the museum setting might be difficult to comprehend and how, by being the sole focus of the museum, materials can be more deeply explored

The exhibition Plasticity – A History of Plastics in Portugal: A participative process at the Leiria Museum

PTDC/IVC-HFC/5174/2014As part of the project “O Triunfo da Baquelite – Contributos para uma História dos Plásticos em Portugal” (2016-2019), the exhibition Plasticidade – Uma História dos Plásticos em Portugal (2019-2021) was organized on the history of plastic materials, in partnership with the Leiria Museum. The exhibition highlighted the importance of plastics, its relationship with the history of industry, design, consumption and mentalities, and science and technology in Portugal, through a process of musealization. In this article we reflect on the exhibition, its objectives and approaches, and on the formation of a collection of plastics, through a participatory process with the communities. In addition, the novelty in considering these materials as “museum objects” led to the analysis of its conservation and restoration issues. The article emphasises the relevance of this project, whether from the point of view of research, or the contribution to the musealization of these types of objects and its preservation. With the creation of a collection and an exhibition at the Leiria Museum, we contributed to fill the gap with a collection dedicated to plastics, reflecting a history of plastics in its multiple aspects of usability in society.publishersversionpublishe

Serhii Plokhy, Chernobyl: The History of a Nuclear Catastrophe, Basic Books, 2018. [Book review]

Book review. Reviewed book: Serhii Plokhy. Chernobyl: The History of a Nuclear Catastrophe. Publisher: Basic Books, 2018. 432 pp. ISBN-13: 978-1541617094Non peer reviewe

PHEA – The Plastics Heritage European Association. Hipoms – Historic Polymeric Materials.

On 08/09 January 2018, PHEA, the Plastics Heritage European Association was founded in the Brussels Design Museum ADAM. Coming from 10 European countries, 18 representatives from different organisations (universities, museums, national societies) decided to establish PHEA, the Plastics Heritage European Association.PHEA’s intention is to build up a network of European organisations with the focus on activities relating to and the research on plastics heritage and ‘Historic Polymeric Materials’ (‘Hipoms’

Plastics in Heritage Science: Analytical Pyrolysis Techniques Applied to Objects of Design

The first synthetic polymers were introduced as constituents of everyday life, design objects, and artworks at the end of the 19th century. Since then, the history of design has been strictly connected with the 20th century evolution of plastic materials. Objects of design from the 20th century are today a precious part of the cultural heritage. They raise specific conservation issues due to the degradation processes affecting synthetic polymer-based plastics. Museums and collections dealing with the conservation of design objects and modern materials need to base their conservation strategies on compositional data that reveal the formulations of historical plastics and their decay processes. Specific and specifically optimized analytical tools are thus needed. We employed flash analytical pyrolysis coupled with gas chromatography and mass spectrometry (Py-GC/MS) and evolved gas analysis coupled with mass spectrometry (EGA-MS) to characterize “historic polymeric materials” (HIPOMS) and heritage plastics at the molecular level with high chemical detail. This approach complements non-invasive spectroscopic diagnosis whenever it fails to obtain significant or complete information on the nature and the state of preservation of the materials under study. We determined the composition of several 20th century design objects (1954–1994) from the Triennale Design Museum of Milan (Triennale Milano - Museo del Design Italiano), which for different morphological, chemical, or physical reasons were unsuitable for characterization by non-invasive spectroscopy. EGA-MS proved capable for the study of the different fractions constituting heterogeneous micro-samples and for gaining an insight into their degradation processes from the contextual interpretation of thermal and mass-spectrometric data.</jats:p

Plastics in heritage science: Analytical pyrolysis techniques applied to objects of design

The first synthetic polymers were introduced as constituents of everyday life, design objects, and artworks at the end of the 19th century. Since then, the history of design has been strictly connected with the 20th century evolution of plastic materials. Objects of design from the 20th century are today a precious part of the cultural heritage. They raise specific conservation issues due to the degradation processes affecting synthetic polymer-based plastics. Museums and collections dealing with the conservation of design objects and modern materials need to base their conservation strategies on compositional data that reveal the formulations of historical plastics and their decay processes. Specific and specifically optimized analytical tools are thus needed. We employed flash analytical pyrolysis coupled with gas chromatography and mass spectrometry (Py-GC/MS) and evolved gas analysis coupled with mass spectrometry (EGA-MS) to characterize “historic polymeric materials” (HIPOMS) and heritage plastics at the molecular level with high chemical detail. This approach complements non-invasive spectroscopic diagnosis whenever it fails to obtain significant or complete information on the nature and the state of preservation of the materials under study. We determined the composition of several 20th century design objects (1954-1994) from the Triennale Design Museum of Milan (Triennale Milano - Museo del Design Italiano), which for different morphological, chemical, or physical reasons were unsuitable for characterization by non-invasive spectroscopy. EGA-MS proved capable for the study of the different fractions constituting heterogeneous micro-samples and for gaining an insight into their degradation processes from the contextual interpretation of thermal and mass-spectrometric data

Plastics in Heritage Science: Analytical Pyrolysis Techniques Applied to Objects of Design

The first synthetic polymers were introduced as constituents of everyday life, design objects, and artworks at the end of the 19th century. Since then, the history of design has been strictly connected with the 20th century evolution of plastic materials. Objects of design from the 20th century are today a precious part of the cultural heritage. They raise specific conservation issues due to the degradation processes affecting synthetic polymer-based plastics. Museums and collections dealing with the conservation of design objects and modern materials need to base their conservation strategies on compositional data that reveal the formulations of historical plastics and their decay processes. Specific and specifically optimized analytical tools are thus needed. We employed flash analytical pyrolysis coupled with gas chromatography and mass spectrometry (Py-GC/MS) and evolved gas analysis coupled with mass spectrometry (EGA-MS) to characterize &ldquo;historic polymeric materials&rdquo; (HIPOMS) and heritage plastics at the molecular level with high chemical detail. This approach complements non-invasive spectroscopic diagnosis whenever it fails to obtain significant or complete information on the nature and the state of preservation of the materials under study. We determined the composition of several 20th century design objects (1954&ndash;1994) from the Triennale Design Museum of Milan (Triennale Milano - Museo del Design Italiano), which for different morphological, chemical, or physical reasons were unsuitable for characterization by non-invasive spectroscopy. EGA-MS proved capable for the study of the different fractions constituting heterogeneous micro-samples and for gaining an insight into their degradation processes from the contextual interpretation of thermal and mass-spectrometric data