Humidity Impact on Kitchen Fronts
(2024) MMKM05 20241Innovation
- Abstract
- Durable and robust product development is crucial for fulfilling customer expectations and ensuring satisfaction. In this context, thorough testing plays an essential role in identifying and addressing potential defects before products reach the final customer. IKEA, with its worldwide presence, aims to enhance its understanding of humidity's impact on kitchen fronts, one of the main product areas. Given the diverse climatic conditions across IKEA's markets, it is essential to ensure that products can withstand stresses derived from variations in temperature and humidity. The durability and quality of the kitchen fronts should thus be independent of the customer’s geographical location.
This study looks into the relationship between... (More) - Durable and robust product development is crucial for fulfilling customer expectations and ensuring satisfaction. In this context, thorough testing plays an essential role in identifying and addressing potential defects before products reach the final customer. IKEA, with its worldwide presence, aims to enhance its understanding of humidity's impact on kitchen fronts, one of the main product areas. Given the diverse climatic conditions across IKEA's markets, it is essential to ensure that products can withstand stresses derived from variations in temperature and humidity. The durability and quality of the kitchen fronts should thus be independent of the customer’s geographical location.
This study looks into the relationship between temperature, humidity, and its impact on kitchen fronts, exploring the possibility of accelerating testing while maintaining realistic results. Through experimentation and analysis, it was discovered that relative humidity predominantly influences water sorption over time, while temperature determines the sorption rate. These findings align with the theoretical framework, indicating that equilibrium moisture content is mainly determined by relative humidity, while temperature influences the water vapor permeability and, consequently, the rate of water vapor into the fronts.
In summary, this study highlights the relationship between humidity and temperature, and their impact on the kitchen front. Thus, providing valuable insights that can serve as a foundation for durable product development and the implementation of effective test parameters. (Less)
Please use this url to cite or link to this publication:
http://lup.lub.lu.se/student-papers/record/9165104
- author
- Ward, Philip LU and Persson, Erik LU
- supervisor
-
- Joze Tavcar LU
- organization
- course
- MMKM05 20241
- year
- 2024
- type
- H2 - Master's Degree (Two Years)
- subject
- keywords
- Medium Density Fiberboard, Relative Humidity, Temperature, Design of Experiments, Accelerated Testing
- language
- English
- id
- 9165104
- date added to LUP
- 2024-06-19 10:43:24
- date last changed
- 2024-06-19 10:43:24
@misc{9165104, abstract = {{Durable and robust product development is crucial for fulfilling customer expectations and ensuring satisfaction. In this context, thorough testing plays an essential role in identifying and addressing potential defects before products reach the final customer. IKEA, with its worldwide presence, aims to enhance its understanding of humidity's impact on kitchen fronts, one of the main product areas. Given the diverse climatic conditions across IKEA's markets, it is essential to ensure that products can withstand stresses derived from variations in temperature and humidity. The durability and quality of the kitchen fronts should thus be independent of the customer’s geographical location. This study looks into the relationship between temperature, humidity, and its impact on kitchen fronts, exploring the possibility of accelerating testing while maintaining realistic results. Through experimentation and analysis, it was discovered that relative humidity predominantly influences water sorption over time, while temperature determines the sorption rate. These findings align with the theoretical framework, indicating that equilibrium moisture content is mainly determined by relative humidity, while temperature influences the water vapor permeability and, consequently, the rate of water vapor into the fronts. In summary, this study highlights the relationship between humidity and temperature, and their impact on the kitchen front. Thus, providing valuable insights that can serve as a foundation for durable product development and the implementation of effective test parameters.}}, author = {{Ward, Philip and Persson, Erik}}, language = {{eng}}, note = {{Student Paper}}, title = {{Humidity Impact on Kitchen Fronts}}, year = {{2024}}, }