https://apm.bplaced.net/w/index.php?action=history&feed=atom&title=Replacement_of_cheapest_industrial_materialsReplacement of cheapest industrial materials - Revision history2026-04-20T14:53:25ZRevision history for this page on the wikiMediaWiki 1.43.0https://apm.bplaced.net/w/index.php?title=Replacement_of_cheapest_industrial_materials&diff=7796&oldid=prevApm: initial version2019-02-23T06:12:25Z<p>initial version</p>
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== High throughput challenging even cheapest industrial materials ==<br />
<br />
Advanced APM ([[gem-gum technology]]) will have extraordinarily [[high throughput]] capacity <br />
(See: [[Higher productivity of smaller machinery]]). <br />
Especially when existing [[microcomponents]] are just [[recycling|recycled]] <br />
since there is much less energy turnover and consequently much less waste heat to remove).<br />
Very high throughput (and chap abundant elements as resource) <br />
means that even today's cheapest industrial materials will be challenged in their use case.<br />
<br />
This includes materials like:<br />
* [[Asphalt]]<br />
* [[Concrete]]<br />
* [[Wood]]<br />
* Metals: [[Steel]], [[Aluminium]], ([[Copper]])<br />
* [[Glass]], [[Ceramics]], ...<br />
* [[Plastics]]<br />
* ...<br />
<br />
== Complexity comes for free ==<br />
<br />
Also with advanced APM ([[gem-gum technology]]) system complexity in products comes for free. <br><br />
Just like it is the case with 3D printing today.<br />
Cost wise it does not matter at all whether you make a dumb passive structural brick <br />
or a material with a highly intricate active internal structure and functionalities.<br />
<br />
One can really integrate almost anything (as long as its miniaturizable):<br />
* computing, <br />
* IO (e.g. touchscreens, [[shape shift feedback]], ...), <br />
* energy management (e.g. solar cells, energy transmission lines, ...) <br />
* or anything else one could think of <br />
No matter what it is. <br />
Same mass (of abundant elements) comes with same cost.<br />
<br />
== Consequences ==<br />
<br />
The consequences of <br />
* extremely high throughput and <br />
* free complexity <br />
at the same time are hardly imaginable.<br />
<br />
Imagine streets house walls and furniture plastered with and made out of <br />
"computers". "Computers" that can even move if you design them to be capable to do so <br />
Which is not necessarily advisable. See: [[self limitation for safety]].<br />
(Deliberate use of passive structures may increase response time in case of hacking attempts.)</div>Apm