Monday, January 11, 2021

Experiment: Make Binding Forces Visible- Molecular Binding Forces, Recycling/Reuse, Life Cycle Engineering (LCE) - Juniper Publishers

 Academic Journal of Polymer Science  Juniper Publisher  

Abstract

A very simple experiment shows students the difference between primary and secondary molecular binding forces. Use an empty plastic cup for milk, yoghurt or coffee and destroy it by pressing the cup together. You will watch cracks only longitudinal the cup. Try to break the cup horizontally you will fail. What you observe are the secondary binding forces between the molecules oriented along the length of the cup versus the primary binding forces perpendicular to the long side of cup.

Keywords: Molecular Binding Forces; Recycling/Reuse; Life Cycle Engineering (LCE)

Introduction

What should be found/investigated ?

[answer: Are the primary molecular binding forces (within the molecular chain acting binding forces, i.e. between primarily connected atoms) actually significantly stronger than the secondary binding forces (between molecules acting forces)? How can a yoghurt cup be reused in a cup of the same application without violating high hygiene regulations in Germany? What role has Life Cycle Engineering for product developers play in the industry? For answers: Students should examine a yoghurt or milk cup.] [1,2].

Why/what could this be important for?

[answer: The shelf life of packaging helps to mechanically preserve food and make it durable for longer. If the digestion breaks easily, e.g. when falling down, damage to the goods and dirt occur. With this experiment, the students understand how the processing of plastics influences the product properties, how to basics of chemistry i.e. binding forces can be easily (and surprisingly) make visible and tangible and how to intelligently understand recycled material in food packaging (for hygienic reasons almost impossible!).]

Why is the experiment essential for the participants?

[answer: We all use plastic packaging and throw them away carelessly after use. Mostly we are still annoyed about the voluminous amounts of garbage. And we are surprised how much brain lard and unexpected highly interesting effects, however, are often stuck in such “worthless” products.]

First Experiment

What is being done?

[answer:

a. Each student brings a large (0.5 l) empty cleaned yoghurt or milk plastic cup

b. Each student brings a small (0.25 or 0.3 or 0.5l) empty cleaned PET bottle

c. The cup and the bottle are squeezed at the top of the edge (cup) or at its whole body (bottle). ]

What happens?

[answer: The cup breaks into the ground in longitudinal cracks; further crushing leads to longitudinal strips via cracks. The PET bottle does not break!]

Why does the cup break this way? Why does such a strip not break transversely to the longitudinal direction? Not, if you bend over 20x or more often vigorously back and forth?

[solution: the cup was deep drawn below the plastic melting temperature or injection molded above the melting temperature; the macromolecules are as a result shear forces oriented in the longitudinal direction. When breaking, the majority of the approx. factor 20 - 35 weaker secondary binding forces act between the polymer molecules; while the binding forces in the chain (between the stronger C-C-bindings) are stressed at right angle they guarantee a high strength. ] [3-8].

Second Experiment

If the students now repeat the same experiment on a piece cut from the PET bottle and load the plastic strip by 90° in each direction, what happens then?

[solution: this PET piece from the bottle has equally high strength in both directions. It does not break in any direction of loading!]

Why?

[solution: biaxially oriented films during production result in stretched macromolecule chains in both directions (offset by 90°); this is followed by high primary bonds and correspondingly high strength biaxially. ]

Further Watching

What is noticeable when the students take a close look at the fracture surfaces of the longitudinal cracks in the yoghurt or milk cups?

[solution: They detect a three-layering of the approximately 0.4 mm thick foil wall of the cup. Outside and inside white, in between gray.] (Figure 1).

What is the explanation for this?

[solution: the outer layers are made of original material, inside is recycled material, so old (unhygienic) plastic of earlier cups, hidden. This is produced by the so-called co-extrusion [9].]

What are the hygienic regulations in Germany/ Europe?

A short summary will be found in [10]. Plastic packaging producers are well advised to certificate their packaging standards after British Retail Consortium (BRC) of the Institute of Packaging. This is a surrounding standard for quality, hygiene and product safety. Alternatively, the German/European DIN EN 15593 standards is comparable to BRC. In April 2020, the Fraunhofer IVV published an investigation about disruptive smelling in recycling plastic as LD PE and PET [11] which shows still a lot of open questions.

Conclusion

What should the students learn from this experiment?

[answer: They are intended to provide an insight into the complexity of today’s mass-produced plastic goods. They will also learn about the chemical and mechanical fundamentals of plastics and get an initial idea of engineering. A qualitative discussion about holistic thinking in terms of Life Cycle Engineering (technical, economical, environmental, social) creates awareness of systemic thinking.]

Is there a social aspect to the question?

[answer: Plastics, their advantages and disadvantages as well as their recycling are an up-to-date theme. In this way, plastics affect a number of important aspects, such as resource consumption, consumer behavior, closed loop economy, Life Cycle Engineering, processing and handling materials, environmental protection.]

Are special competences promoted with the experiment ?

[answer: Theory (basics of chemistry) comprehend by hand ; technical understanding; ability of observing; logical engineering thinking; problem-solving behavior; systemic mindset;]

Is the experiment interdisciplinary?

[answer: Yes: chemistry, technology, materials science, business administration (qualitative), product(food) protection/ hygiene.]

Is this an actual research topic? If so, why?

[answer: Yes. Safe packaging is an important issue in resource protection and hygiene. Circular economy is technically, economically, environmentally and socially significant.]

Is it a theme of author´s own sponsoring organization?

[answer: Yes.]

Infobox

Student laboratory

a. Open Youth Workshop Karlsruhe e. V. (Offene Jugendwerkstatt Karlsruhe e.V.)

b. Fraunhofer ICT, TheoPrax

Contactpersons

Peter Eyerer, Fraunhofer ICT, Pfinztal, Germany

Dörthe Krause, TheoPrax Foundation, Pfinztal, Germany

Age and type of school of the target group

From grade 8 of all school types and also for teachers.

Fields

Chemistry, natural sciences, technique, physics

Time needed

Approx. 45 minutes

Tags

a. Primary and secondary binding forces

b. Production of packaging products out of plastic

c. Recycling , reuse

d. Closed loop economy

e. Life Cycle Engineering

f. Systemic thinking

Methods

Didactically leaded research-oriented experiment

For the solutions of the question/problems there is enough information material (in writing, visual (videos), haptic).


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