Molecular mobility in crispy bread crust

Molecular mobility in crispy bread crust

The aim of the PhD study on molecular mobility was to analyse the molecular grounds for the deterioration of crispy/crunchy characteristics of cellular solid foods. A fresh baguette for example has a crispy crust and a moist and soft interior. Moisture migrates from crumb to crust. Already at a water content of 9% (crumb contains around 45% water) the crispness of the crust decreases. During the study methods were developed to measure the speed of water uptake to test different ingredients on their potential to prolong crispness. Also the glass transition (which means an increase in mobility of the protein and starch molecules in the crust) and its relation with sensorial loss of crispness was investigated. The history of the crust in terms of water content and water activity as well as the morphology of the crust was found to be important for crispness and crispness retention.

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Bibliographic Details
Main Author: van Nieuwenhuijzen, N.H.
Other Authors: Hamer, Rob
Format: Doctoral thesis biblioteca
Language:English
Subjects:bread, brittleness, food physics, molecular physics, sensory evaluation, water activity, water uptake, aw-waarde, brood, broosheid, levensmiddelenfysica, moleculaire fysica, sensorische evaluatie, wateropname (planten),
Online Access:https://research.wur.nl/en/publications/molecular-mobility-in-crispy-bread-crust
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spelling dig-wur-nl-wurpubs-3622572024-10-23 van Nieuwenhuijzen, N.H. Hamer, Rob van Vliet, Ton Tromp, R.H. Doctoral thesis Molecular mobility in crispy bread crust 2008 The aim of the PhD study on molecular mobility was to analyse the molecular grounds for the deterioration of crispy/crunchy characteristics of cellular solid foods. A fresh baguette for example has a crispy crust and a moist and soft interior. Moisture migrates from crumb to crust. Already at a water content of 9% (crumb contains around 45% water) the crispness of the crust decreases. During the study methods were developed to measure the speed of water uptake to test different ingredients on their potential to prolong crispness. Also the glass transition (which means an increase in mobility of the protein and starch molecules in the crust) and its relation with sensorial loss of crispness was investigated. The history of the crust in terms of water content and water activity as well as the morphology of the crust was found to be important for crispness and crispness retention. en application/pdf https://research.wur.nl/en/publications/molecular-mobility-in-crispy-bread-crust 10.18174/121959 https://edepot.wur.nl/121959 bread brittleness food physics molecular physics sensory evaluation water activity water uptake aw-waarde brood broosheid levensmiddelenfysica moleculaire fysica sensorische evaluatie wateropname (planten) Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic bread
brittleness
food physics
molecular physics
sensory evaluation
water activity
water uptake
aw-waarde
brood
broosheid
levensmiddelenfysica
moleculaire fysica
sensorische evaluatie
wateropname (planten)
bread
brittleness
food physics
molecular physics
sensory evaluation
water activity
water uptake
aw-waarde
brood
broosheid
levensmiddelenfysica
moleculaire fysica
sensorische evaluatie
wateropname (planten)
spellingShingle bread
brittleness
food physics
molecular physics
sensory evaluation
water activity
water uptake
aw-waarde
brood
broosheid
levensmiddelenfysica
moleculaire fysica
sensorische evaluatie
wateropname (planten)
bread
brittleness
food physics
molecular physics
sensory evaluation
water activity
water uptake
aw-waarde
brood
broosheid
levensmiddelenfysica
moleculaire fysica
sensorische evaluatie
wateropname (planten)
van Nieuwenhuijzen, N.H.
Molecular mobility in crispy bread crust
description The aim of the PhD study on molecular mobility was to analyse the molecular grounds for the deterioration of crispy/crunchy characteristics of cellular solid foods. A fresh baguette for example has a crispy crust and a moist and soft interior. Moisture migrates from crumb to crust. Already at a water content of 9% (crumb contains around 45% water) the crispness of the crust decreases. During the study methods were developed to measure the speed of water uptake to test different ingredients on their potential to prolong crispness. Also the glass transition (which means an increase in mobility of the protein and starch molecules in the crust) and its relation with sensorial loss of crispness was investigated. The history of the crust in terms of water content and water activity as well as the morphology of the crust was found to be important for crispness and crispness retention.
author2 Hamer, Rob
author_facet Hamer, Rob
van Nieuwenhuijzen, N.H.
format Doctoral thesis
topic_facet bread
brittleness
food physics
molecular physics
sensory evaluation
water activity
water uptake
aw-waarde
brood
broosheid
levensmiddelenfysica
moleculaire fysica
sensorische evaluatie
wateropname (planten)
author van Nieuwenhuijzen, N.H.
author_sort van Nieuwenhuijzen, N.H.
title Molecular mobility in crispy bread crust
title_short Molecular mobility in crispy bread crust
title_full Molecular mobility in crispy bread crust
title_fullStr Molecular mobility in crispy bread crust
title_full_unstemmed Molecular mobility in crispy bread crust
title_sort molecular mobility in crispy bread crust
url https://research.wur.nl/en/publications/molecular-mobility-in-crispy-bread-crust
work_keys_str_mv AT vannieuwenhuijzennh molecularmobilityincrispybreadcrust
_version_ 1819150434513715200

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