Recently at our school and amongst our students there has been a wave of interest created by students who have purchased toys that are labelled as 'fidget toys' or 'impossible shapes' or some similar variation.
In each case they are some geometric shape which can be combined into a solid or which twists together to form some kind of visual illusion.
When the first of these appeared they came in the form of objects that were bought online, which the students brought into the classroom. Much like the plethora of 3D Printed Dragons, which we have identified and then been able to replicate ourselves and then sell for our school market day, the first task in identifying and unpacking these objects was to locate them online in a way that we could identify how they were produced.
A reminder that this process is being undertaken by students in the classroom who are juniors at our school that is students aged seven and eight years old, most printing and designing for the first time.
For this we ventured to
Thingiverse - where here we were able to identify the .stl code for the
'spiral code fidget toy'This allowed us to duplicate the original purchased design, and although we did not have the exact PLA which matched with the base of the triangle the students then set about looking for it online so the school could order it through our suppliers. This took four and a half hours to print on regular default settings. There was of course no design from students as they were able to find the .stl and once it was imported into Tinkercad they were able to manipulate it and adjust the design.
This then led to a search on online selling sites for objects that were similar or designed in a similar way. This led the students to discover the following designs from a place called Temu.
Obviously the spiral has already been identified and printed successfully, but there are clearly a range of other designs and shapes, which follow a similar format, that are now potentially available to students.
Our students are also experimenting with the 'rainbow' and 'sheen filaments' which will meant these designs will not require spray painting (and as the spray painting adds a layer to the print there is the question about whether or not this will make it slightly more difficult for the designs to come together).
The making process can be shown to the students, the price of the objects can also be discussed (as with most printers it is possible to determine exactly how much PLA is used in a print, t
he sphere uses 8.6m of PLA or 25.6g. The spiral cone shown uses 13.4m or 39.9 grams of filament. At current prices for our school a regular roll of PLA is $30.00 or $42.00 for the 'silk' version (which is how the metallic look is achieved).
By dividing the amount of PLA for a spiral cone into the roll of filament, we can determine that 25 spirals can be manufactured off a regular roll. When we divide the cost of a regular roll of $30.00
we can determine a basic manufacturing cost of $1.20 per unit (although this assumes that the PLA is that price it can be obtained cheaper). We have seen these priced for as high as $15.00 (excluding delivery).
Likewise with the 'silk' or 'rainbow' PLA (shown left) with a slightly higher price point the spirals can be produced for around $1.70 (again which has been priced online as high as $15.00).
For the smaller impossible spheres (as shown above) we can produce them at a price of seventy five cents on a regular roll of filament or just over a dollar each if involving 'silk'.
This has considerations for pricing if we wanted to sell them as part of a market day or at the office but also allows the students and children a window into the production process and setting a price for an item.
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