The effect of weathering on the forensic comparison of disposable gloves

Rimkus, Claire Lillian

January 2013

Disposable gloves are often used by the perpetrators of a crime to prevent the deposition of fingerprints and epithelial cells at a crime scene. When removed and discarded at the scene, these items of evidence are often analyzed by a Trace Evidence Unit. By evaluating basic physical and chemical characteristics, a comparison to a known glove can be made. However, it is unclear whether temperature and weather conditions at a crime scene can alter the characteristics of the glove, and have a detrimental effect on this evidence comparison. In this study, a variety of disposable gloves made of nitrile rubber, natural rubber latex, and polyvinyl chloride were studied to assess the relationship between environmental conditions and polymer characteristics. Samples were placed in evidence envelopes or immersed in distilled water at three different temperatures, and were analyzed after 0, 3, and 6 weeks. Analysis included thickness measurements, stereomicroscopy, and Fourier-Transform Infrared Spectroscopy (FTIR). Results demonstrate that disposable gloves are susceptible to physical changes when exposed to various conditions. A majority of gloves exhibited an increase in thickness measurements at a variety of temperature and moisture conditions. Several gloves — spanning all types and different brands — displayed subtle changes in surface texture and spectral data. Analysis was complicated by the fact that no glove is 100% polymer, but instead contains a variety of additives, including stabilizers, plasticizers, and dyes. Additional characterization with a quantifiable separatory method, such as Pyrolysis-Gas Chromatography/Mass Spectrometry, is therefore recommended to further elucidate the changes that can occur.

Forensic examination

Disposable gloves

In-house glove recycling : Eliminating a waste stream with a circular approach

Sjöberg, Axel, Olsson Stjernberg, Johan

January 2020

Background. Between 2012 and 2017 the plastic supply in Sweden increased by almost 400000 metric tons. In 2017, the hospitals in Sweden contributed to 4550 metric tons of plastic waste, disposable gloves counted for 2100 metric tons, which is 358 million disposable gloves. The majority made in other countries than Sweden, which is not only contributing to a considerable waste stream but also vulnerability when the system is dependent on continuous material supplies. Aim and Purpose. The research aim has been to understand the challenges and opportunities of needs relating to plastic waste flows from the health care sector. From the needs, choose an area to develop an innovative solution that changes the current waste flow into value for the health care sector in Sweden. Method. For this thesis, the researcher has used the Design Research Methodology and the MSPI innovation process. Design Research Methodology has been used to find and validate crucial information about the problem, by the usage of literature research and Unstructured interviews within the research area. MSPI was iteratively used with DRM to design the intended support as well as building the actual support. Results. The final prototype proves that circularity for plastic materials in hospitals is reachable. The Needfinding highlights the need for circularity, regarding both an effective use of the material and the health care’s readiness levels where access to Personal Protection Equipment (PPE) is crucial, especially in times of crisis. Conclusions. During the time of crisis, the COVID-19 pandemic, it has been clear that changes regarding preparedness and access to PPE needs improvement. Circularity is one way of achieving greater control of the material flow, which affects the hospital's level of independence. The development has proven one way of making the flow of disposable gloves circular by developing an inhouse recycling machine. This thesis work is just one angle of approach towards circularity and more efficient usage of material. To prove the concept in a hospital environment, future development is required. / Bakgrund. Mellan åren 2012 och 2017 har plastförsörjningen i Sverige ökat med nästan 400 000 ton. Under 2017 bidrog sjukhusen i Sverige till 4550 ton plastavfall varav engångshandskar bidrog med 2100 ton, vilket motsvarar 358 miljoner engångshandskar. Majoriteten är tillverkade i andra länder än Sverige, vilket inte bara bidrar till en stor avfallsström, utan också sårbarhet när systemet är beroende av kontinuerlig materialförsörjning. Syfte och Mål. Forskningens syfte har varit att förstå utmaningarna och möjligheterna med plastavfallsflöden från vårdsektorn. Från behoven väljs ett område för att utveckla en innovativ lösning som stöder cirkularitet inom hälso-sjukvården i Sverige. Metod. Denna avhandling har genomförts med hjälp av DRM- och MSPI-innovationsprocess. DRM, Design Research Methodology, har använts för att hitta och validera avgörande information kring problemet och har också gett akademisk trovärdighet. Detta har gjorts med litteraturforskning och ostrukturerade intervjuer inom forskningsområdet. MSPI har använts tillsammans med DRM på iterativt sätt för att utforma det avsedda stödet och bygga det faktiska stödet. Resultat. Projektets prototyp bevisar att cirkularitet för plastmaterial på sjukhus kan nås. Behovsundersökningen visar på behovet av cirkularitet, både när det gäller materiell effektivitet och beredskapsnivåer på sjukhus där tillgången till personlig skyddsutrustning är avgörande. Speciellt i kristider. Slutsatser. Under kristiden, covid-19-pandemin, har det varit tydligt att förändringar avseende beredskap och tillgång till personlig skyddsutrustning måste göras. Cirkularitet är ett sätt att uppnå större kontroll över materialflödet som påverkar sjukhusens självständighetsnivå. Projektet har visat ett sätt att göra flödet av engångshandskar cirkulärt genom att utveckla ett system för remanufacturing. Detta är bara en inställningsvinkel mot cirkularitet och en mer effektiv användning av material. För att bevisa konceptet i en riktig sjukhusmiljö krävs vidareutveckling.

Waste to value

circular economy

PVOH

disposable gloves

health care

Other Mechanical Engineering

Annan maskinteknik