1. Food Colloids
Dimitra Founta
Supervisor : Prof. George Petekidis
Course: Colloidal Dispersions | Department of Materials Science and Technology
UNIVERSITY OF CRETE
21/02/2019
2. 2
1. Introduction
2. Experimental Measurements with Mayonnaise
OUTLINE
Studies in the LVE region
Studies in the NLVE region – yielding
3. Conclusions
Temperature effect ???
3. The term “colloid”—from the Greek words kolla, meaning “glue,” and eidos, meaning “like” —was first used in 1861 by
Thomas Graham
3
1.Colloids????
• Uniform mixtures that don't separate or settle out.
• Homogenous (but can appear as heterogeneous in microscopic scales)
• There are two parts to every colloid mixture: the particles and the dispersing medium.
Particles: Bigger than solutions , smaller than suspensions (~1nm-10μm)
size
1nm 10μm
4. Mixture Types
• Suspensions (>1 μm)
-Insoluble particles suspended in liquid or gas
-Separation after letting sit (exp. Sedimentation)
-Light can’t pass through completely
• Solutions(<1 nm)
-No separation of the particles and the solvent
-Light can pass through completely
4
Shake well
before useSand , Snow Ball , etc
Sugar in Water , Salt in Water, etc
Sugar-Technobyte-SEM
5. Is it colloidal?
Semipermeable membrane test
5
Tyndall effect test
Timberlake,Chemistry: An Introduction to General, Organic, and Biological
Chemistry, 7th Edition,1999,Pearson, Los Angeles Valley College
https://www.shutterstock.com/image-vector/tyndall-effect-436536265
7. 1.Interactions in Emulsions
7
DLVO theory
Repulsive
Attractive
r
V (r)
DLVO
Vtot = Vatt + Vrep
Secondary minimum
Binary minimum >>kBT
Energy Barrier
8. 1.Typical instabilities of Emulsions
8
Creaming Sedimentation Flocculation Coalescence
Stable
Emulsion
Too strong repulsions Too strong attractions
Phase
separation
With medium Between particles
9. 1.Emulsions Emulsifiers
9
Molecules that encourage the suspension of one immiscible phase to another
Lecithin (Soy, Egg Yolk)
B-Casein (Milk)
Poly-Glycerol Ester (PGE)
…
Hydrophilic
Lyophilic
O/W W/O
Reduction of interfacial tension
between two phases
10. • Microscopy (distribution and dimensions of droplets)
• Rheology
• Texture tests
• Odor, Color , pH
• …
1.Food Analysis Tests – Emulsion stability
10Source: Anton Paar
11. Why Rheology?
11
– Deformation or movement that occurs in a material (-)
How much did the sample move?
– Force applied to a sample (Force/unit area)
How hard did I push /twist the sample?
- A sliding deformation that occurs when there is
movement between layers in a sample
– Shear stress/shear strain rate
How resistance is it to flow?
– Stress/Strain
How “strong” is it ?
Rheology is the science of the
flow and deformation behavior of
substances. When matter flows or
is deformed there are three factors
which must be considered: the
internal structure, the external
forces which act on the substance,
and the environmental conditions,
for example temperature.
Source: Anton Paar
12. 1.Rheometer : The set up used
12
kinexus Pro +
PL20mm -
Serrated
Tools
used
13. 1.Dynamic Strain Sweep (DSS)
13
Define the linear regionG’G”(Pa)
LVE NLVE
γ (%)
𝛾 =
𝐷𝑖𝑠𝑝𝑙𝑎𝑐𝑒𝑚𝑒𝑛𝑡
𝐻𝑒𝑖𝑔ℎ𝑡
14. 1.Dynamic Frequency Sweep (DFS)
14
Time-dependent behavior of a sample in the non-destructive deformation range(LVE)G’G”(Pa)
ω (rad/s)
G″
G′
G′>G″ Solid-like
G″>G′ Liquid-like
G″ = viscous response
G′ = elastic response
Sol-Gel Transition
15. 1.Flow Curve
15
Graphical description of the flow behavior
Shearstressσ(F/A)
Shear Rate γ (s-1)
Viscosityη(Pa*s)
Shear Rate γ (s-1)
Newtonian
Pseudoplastic
Dilatant
Newtonian Fluids- Time independent
