A quick update on lab work

The Polymic group have kindly allowed me to use their lab to carry out the heat pipe fabrication work. I have been running from the Polymic lab to the Danchip lab and then another lab at the Nanotech building looking for parts in order to create the prototypes and testing systems. I am trying to avoid ordering parts but it has been difficult sourcing the components I need. The literature I am reading is not very precise on what gauges should be used or the components and as these are unique prototypes, I have been doing a 'cut to fit' job.

Creating the prototype 

Last week I spent a lot of time trying to bond the container and Si section together using the silicon based adhesive. To be honest, I am really not sure the bond will hold because in order to prevent any glue from contaminating the wick, I tried to apply it partially to the surface. It was the clamped for approx. 24 hours where I then applied another layer. I will be doing leak tests this week so if they fail, I might have to open them up, remove the glue and give the parts a clean and glue with something else.

Clamped carefully with clothes pegs

On clamping with the clothes pegs, another Si wafer bit the dust. The clamping must have again agitated a fracture in the Si wafer after I scratched it with the glass cutter (Roman numerals with all those straight lines...a bad choice!).

Cracked prototype.

The tube system can also be seen above on the cracked prototype. It will be covered at the connections with sealant.

Contact angle tests

From the previous research, Simon had placed the Si wafer with micro structure in the Plasma chamber for a couple of minutes in order to create a silicon oxide layer on the surface, making it more superhydrophilic. I have done this for all of the specimens and have carried out some 'rate of rise' velocity tests on the specimens.

Oxygen plasma treatment of the wick structures.

Contact angle test of Si wick structure after plasma treatment. The drop spreads instantly (as opposed to the untreated specimen) which means the surface is fully wetted.

Crimping

I have tested a crimp system and perhaps I can get that to work. However, it will difficult crimping the tubing of the cotainer which needs to be under a vacuum. Once I source a vacuum sensor of some kind, I can test this set up for leaks.

Crimping the tubing

Next...

I have been also working on putting together all of the information into the chapters on concept development and heat fabrication. As time is ticking away, I am not sure whether I will get to the testing stage as there are still the huge tasks of leak testing, charging and sealing.

Roskilde and discos (on PVC)

A weekend volunteering at the Danish Corner at Roskilde has left me anti-pork and suffering from man-flu. But regardless, I got something done in the last 3 days. Tomorrow I hope to begin gluing the container together in preparation for filling and sealing. I hand in August 7. Yikes.

Wafer set up before cutting

Disco cutting

Today we finished cutting out the wick sections thanks to help from another Danchip employee, Majken Becker. The Disco saw danced through the silicon like M.J. doing the moon walk through butter. However, I lost a couple of sections due to some work I did on the pieces beforehand. In order to label the sections, I used a glass cutter to mark them with Roman numerals from I - V. Funny, I thought the Roman numerals would look better (classy) but the straight lines I scratched into the surface must have aligned with the crystals in the silicon and once sawing began, the crack propagated through the whole section. 3 out of 10 wick sections were lost in this way. AND while drying the wick sections after a dose in the ultrasonic bath (5 minute blast), I was drying them with an air gun and nearly lost another part after it blew out of my hands and hit the floor. Manflu.  

PVC plastic cover for heat pipe

PVC container sections

10 covers have been machined using a milling process. The material is PVC and was chosen because it was available and a quick calculation shows that it should be OK under pressures up to 2 bar with a wall thickness of 1 mm. A 1 mm diameter hole has been drilled in the centre for filling. I am not looking forward to filling and sealing. I will need to ensure that there are no other gases in the cavity and it needs to be sealed at the hole. The glue and hole need to hold when in operation.

Alicona image of cover wall showing debris

The milling process has left some debris around the edges which could contaminate the capillary structure. Even after 5 minutes in ultrasonic bath, there still appear to be leftovers from the milling so it might be necessary to sand these down. But then that could lead to further debris (finer debris) so I will probably go around the edge with a tweezers and pluck them off like hair from a brow.