Difference between revisions of "User:Manoukvdk/Proces"

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'''My statement'''
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'''End result'''
  
 
After a while I started to make a collection of structural landscapes, each technique in combination with the materials are beautiful and fascinating characteristic objects. My love for making comes out the beauty of materials, the inspiration you get from those little pieces comes together. And the wide reach you got with one single material. Making for me is feeling, seeing and connecting the right materials together, creating a beauty of its own.  
 
After a while I started to make a collection of structural landscapes, each technique in combination with the materials are beautiful and fascinating characteristic objects. My love for making comes out the beauty of materials, the inspiration you get from those little pieces comes together. And the wide reach you got with one single material. Making for me is feeling, seeing and connecting the right materials together, creating a beauty of its own.  

Revision as of 18:04, 22 April 2015

Digital Craft Statement

250PX

From the beginning I “made” I’m very aware of my materials. I’m that kind of person where seeing and touching comes together. When I made I usually starts with how does it look and how does it feel. Unfortunately it’s a fascination I always want to control by my own and as a result It’s hard for me to make things by coincidence. It’s always kind of “controlled” and that’s really who I am.

For this course I was looking for a way to control my work and also leave it up to coincidence, it needed to be a project that comes together by controlled work from me and work that was touched by a other form of nature. This form of nature could be as an example the process that comes from oxidation or the way fire can be unpredictable. I cannot control these things.

The second thing that came up was the literal combination of Digital Craft. How became things suddenly Digital Craft and can I make a combination of the oldschool original craftworks with the new technologies these days. A project where the purity and purpose of craftwork are melted with traditions and innovations from these time. But overall Craftwork for me shows a lifetime of learning, making and changing and having the ability to combine traditional knowledge with modern thinking in order to make something beautiful.

At the start I was searching for a way to combine my visions for this project. I found out Stipple Gen a program that can generate stipple diagrams and “TSP path” art from images. It’s a great (and free) tool for turning a photo into CNC-ready artwork, for use on the Eggbot or in other contexts. The beauty in this processing program is I can upload a picture and the processing turns it into a other image. The program decides how to render this image so I can’t control it. For the base I used the portraits of the founders of Arts & Craft Ruskin and Morris to make a serial of portraits on all the different craftworks.

Soon I found out that my focus and interests were more about the abstract structures of the portraits and for me it was not about the pictures anymore. The abstract outcomes in combination with the different techniques made me very happy and satisfied about the way I have worked. By every step I made I loosed a bid of controlling the materials. For example my last work “pushing Historical Example to limits” was not just searching for limits of the technique but also looking for my own limits, it took me more than 7 hours to got this end result. It was learning to let go all the controls and just see what happens. I only decided what kind of image was displayed on the copper plate but had no idea what would happen after that.

For the further process I used my fasciation for the effects on natural and non-natural materials. Combine two materials that normally don’t come together. During this project, I started to experiment with the reactions on metals (oxidation , corrosion etc). I tried patination certain color reactions on different metals and combine this with original techniques.


End result

After a while I started to make a collection of structural landscapes, each technique in combination with the materials are beautiful and fascinating characteristic objects. My love for making comes out the beauty of materials, the inspiration you get from those little pieces comes together. And the wide reach you got with one single material. Making for me is feeling, seeing and connecting the right materials together, creating a beauty of its own.

aanvullennnnn


Structural Landscapes

Series of 6

Simulate my research for the beauty of materials and techniques.

Showing details of the quality of each tool. Craftwork is a beauty.



Inspiration

Metaal & Hitte [Kleuren bij verhitten]

Metaalhitte.jpg


A Trinity - Ericka Ricciutti A0f14f917ed03127ed6dda9e3e4ceed9.jpg A1e87aaf7d91af51b4d70330813b6e34.jpg

David Derksen - Transcience Transcience mirror2-400x533.jpg 8 foto.jpg

David Derksen Top-view-800x533.jpg Patern-800x531.jpg

http://www.wikihow.com/Oxidize-Copper 670px-Oxidize-Copper-Step-14-Version-3.jpg Aa96ff819885386565289b0c7f1e09f9.jpg 8968b0b2610b34d0718182649fdd735b.jpg

https://www.flickr.com/photos/janetlittle/5465870799/lightbox/ A8135577f4f15efef83897d92d506830.jpg

Irene Weinz, Blue Water, rings Sterling silver rings with blue enamel, oxidized. 2013 63bb08e4a520bb4b97d8b308f9b9212d.jpg Oxydation By Periegese Tumblr lnfttnYRkL1qzs7m3o1 500.jpg




Recepten oxideren van metalen

IMG 0406-klein.jpgIMG 0407 klein.jpgIMG 0416 klein.jpgIMG 0417 klein.jpgIMG 0424.JPGIMG 0429 klein.jpg

Research Stipple Gen

Used Materials & Techniques

MATERIALS

Wood is a porous and fibrous structural tissue found in the stems and roots of trees and other woody plants.

It has been used for thousands of years for both fuel and as a construction material. It is an organic material, a natural composite of cellulose fibers (which are strong in tension) embedded in a matrix of lignin which resists compression. Wood is sometimes defined as only the secondary xylem in the stems of trees, or it is defined more broadly to include the same type of tissue elsewhere such as in the roots of trees or shrubs.[citation needed] In a living tree it performs a support function, enabling woody plants to grow large or to stand up by themselves. It also conveys water and nutrients between the leaves, other growing tissues, and the roots. Wood may also refer to other plant materials with comparable properties, and to material engineered from wood, or wood chips or fiber.

The Earth contains about one trillion tonnes of wood, which grows at a rate of 10 billion tonnes per year. As an abundant, carbon-neutral renewable resource, woody materials have been of intense interest as a source of renewable energy. In 1991, approximately 3.5 cubic kilometers of wood were harvested. Dominant uses were for furniture and building construction.


Copper is a chemical element with symbol Cu (from Latin: cuprum) and atomic number 29. It is a ductile metal with very high thermal and electrical conductivity. Pure copper is soft and malleable; a freshly exposed surface has a reddish-orange color. It is used as a conductor of heat and electricity, a building material, and a constituent of various metal alloys.

The metal and its alloys have been used for thousands of years. In the Roman era, copper was principally mined on Cyprus, hence the origin of the name of the metal as сyprium (metal of Cyprus), later shortened to сuprum. Its compounds are commonly encountered as copper(II) salts, which often impart blue or green colors to minerals such as azurite and turquoise and have been widely used historically as pigments. Architectural structures built with copper corrode to give green verdigris (or patina). Decorative art prominently features copper, both by itself and as part of pigments.

Copper is essential to all living organisms as a trace dietary mineral because it is a key constituent of the respiratory enzyme complex cytochrome c oxidase. In molluscs and crustacea copper is a constituent of the blood pigment hemocyanin, which is replaced by the iron-complexed hemoglobin in fish and other vertebrates. The main areas where copper is found in humans are liver, muscle and bone. Copper compounds are used as bacteriostatic substances, fungicides, and wood preservatives.


Aluminium is a chemical element in the boron group with symbol Al and atomic number 13. It is a silvery white, soft, nonmagnetic, ductile metal. Aluminium is the third most abundant element (after oxygen and silicon), and the most abundant metal in the Earth's crust. It makes up about 8% by weight of the Earth's solid surface. Aluminium metal is so chemically reactive that native specimens are rare and limited to extreme reducing environments. Instead, it is found combined in over 270 different minerals. The chief ore of aluminium is bauxite.

Aluminium is remarkable for the metal's low density and for its ability to resist corrosion due to the phenomenon of passivation. Structural components made from aluminium and its alloys are vital to the aerospace industry and are important in other areas of transportation and structural materials. The most useful compounds of aluminium, at least on a weight basis, are the oxides and sulfates.

Despite its prevalence in the environment, no known form of life uses aluminium salts metabolically. In keeping with its pervasiveness, aluminium is well tolerated by plants and animals.[8] Owing to their prevalence, potential beneficial (or otherwise) biological roles of aluminium compounds are of continuing interest.


Steel are alloys of iron and carbon, widely used in construction and other applications because of their high tensile strengths and low costs. Carbon, other elements, and inclusions within iron act as hardening agents that prevent the movement of dislocations that otherwise occur in the crystal lattices of iron atoms.

The carbon in typical steel alloys may contribute up to 2.1% of its weight. Varying the amount of alloying elements, their formation in the steel either as solute elements, or as precipitated phases, retards the movement of those dislocations that make iron so ductile and weak, and thus controls qualities such as the hardness, ductility, and tensile strength of the resulting steel. Steel's strength compared to pure iron is only possible at the expense of ductility, of which iron has an excess.

Although steel had been produced in bloomery furnaces for thousands of years, steel's use expanded extensively after more efficient production methods were devised in the 17th century for blister steel and then crucible steel. With the invention of the Bessemer process in the mid-19th century, a new era of mass-produced steel began. This was followed by Siemens-Martin process and then Gilchrist-Thomas process that refined the quality of steel. With their introductions, mild steel replaced wrought iron.

Further refinements in the process, such as basic oxygen steelmaking (BOS), largely replaced earlier methods by further lowering the cost of production and increasing the quality of the metal. Today, steel is one of the most common materials in the world, with more than 1.3 billion tons produced annually. It is a major component in buildings, infrastructure, tools, ships, automobiles, machines, appliances, and weapons. Modern steel is generally identified by various grades defined by assorted standards organizations.


Paper

Vinyl

Transfersheets


TECHNIQUES

Patinate

Corrosion

Etching

Lasercutter

Plotter

Printer

To do List

- Koper behandelen met licht emulsie daarna dit in zuur leggen waardoor restante delen verwijderen.

- Afdrukken op metalen maken doormiddel van zuren (zoals ontwikkelen foto's etc)

- Eigen mini plotter maken

- Electroplating

- Kan ik portretten maken uit bleek?

- Bluing (steel) [Link]

First Steps

IMG 9716.JPG IMG 9720.JPG

IMG 9714.JPG IMG 9722.JPG

IMG 9727.JPG IMG 9725.JPG

Comparative Example

OLD VERSER NEW


The first machine I used was a printing device from the 80's. This printer only print with a processing code you need to write by yourself. At this time the machine was made, it was not capable to convert messages from a computer to a document to be printed.


IMG 9756.JPG IMG 9764.JPG

Schermafbeelding 2015-04-19 om 15.44.52.png Schermafbeelding 2015-04-19 om 15.45.09.png


New plotter

IMG 9960.JPG IMG 9962.JPG

IMG 9968.JPG IMG 9965.JPG

IMG 9976.JPG IMG 9977.JPG

SAM5823 BWklein.jpg




Carving & Cutting


DSCN0013 klein.jpg DSCN0015 klein.jpg

SAM5837 klein.jpg

New Skill 1.0

Stipple Gen

StippleGen 01.gif StippleGen 02.gif

New Skill 2.0

Patine

Used for patinate metals


- S-39

- Hydrogen Peroxide

- Bleach

- Drain cleaner


IMG 0034.JPG IMG 0033.JPG

IMG 0035.JPG IMG 0039.JPG

IMG 0050.JPG IMG 0250.JPG

IMG 0265.JPG IMG 0266.JPG

IMG 0269.JPG



Rusky metal

After 3 days of rain and spaying water it came out like this. You still can feel the structures that the metal created by oxidation with the typical bright colours.

IMG 0271.JPG IMG 0275.JPG

IMG 0278.JPG

Collective Example

Indianen Blob Printing

HANDMADE PRINTINGTOOL

- Aquarel Waterbrush

- Plastic tube/hose

- Hypodermic syringe

- Blue ink


After the pressure in the hose was to high we spontaneous created some thick inkblobs, we all thaugh this was very awesome but one problem.

The blobs would disappear when it dries so we had to think about a solution to keep the blobs in it's original state.

Tim came up with black acrylics but after that Roos and me fucked up the Aquarel waterbrush (ofcourse this was only made for water products).


This experiment fits in my statement because it's about searching for structures and creating a landscape by using different materials.


IMG 0558 klein.jpg IMG 0531 klein.jpg

IMG 0562 klein.jpg IMG 0571 klein.jpg



We created a new printinghead out off a fillable pencil thingy.

IMG 0575 klein.jpg IMG 0582 BWklein.jpg

IMG 0589 bwklein.jpg IMG 0592 bw2klein.jpg

IMG 0597 bwklein.jpg Shared example.gif


BEKIJK VIDEO [Indianen Blob Printing Video]

Pushing Limits & Historical Example

Pushing the oldway into a new technique

After experimenting with oxidize metals I wanted to push the historical etch technique to its borders. Etching I think is a wonderful technique where you make a full use of the material. It also take a few steps before you a actually can print/press your design. Because I wanted to make a combination with the new and old I choose to reflect my design on the plate instead of carving it in the first place.

With this technique you use photosensitive material like you use with silkscreen. After you reflect the design you put the plate in a bath of soda and wait till the layers comes off. In my case my design in combination with the reflecting process was too complicated. The layers wouldn’t come off as fast I was expected it would be. Using this technique and not carving was for me a way to chance the original technique and make it more impossible for myself to know what it would do and controlling it.


Deze techniek is ontstaan in het begin van de 16de eeuw en werd in de boekdrukkunst gebruikt om tekeningen te reproduceren. Hiermee konden veel fijnere prenten gedrukt worden dan met de daarvoor gebruikelijke houtsnee. Etsen is te verdelen in drie technieken: etsen, droge naald en graveren.

Etsen is het chemisch verwijderen van metaal door zuren (inbijten). Het woord "etsen" is afkomstig van het Duitse "ätzen" dat "doen eten" betekent. Het is een proces waarbij een tekening in metaal wordt uitgebeten door een zuur met het doel er een afdruk van te maken. De tekening wordt in spiegelbeeld in de etsgrond aangebracht met een etsnaald. De door deze etsnaald uitgekraste delen van de etsgrond worden dan blootgesteld aan een verdund zuur, dat op die plaats het metaal wegvreet. Vervolgens wordt de etsgrond verwijderd, inkt in de uitgebeten delen gewreven en een afdruk gemaakt door de plaat met een vel papier bedekt onder een diepdrukpers door te halen.


USED MATERIALS FOR THIS EXPERIMENT

- Copper

- Tranfer Sheets

- Photosensitive material

- Ferric Chloride

- Brass Polisch

- Soda Solution


2 x uv light of 3 min

3 x Brass Polish

10 x soda bath about 15 min each time

4 x Ferric Chloride Bath about 1 hour each time


IMG 0625.JPG IMG 0637.JPG

IMG 0638.JPG IMG 0641.JPG

IMG 0645.JPG IMG 0657.JPG

IMG 0655.JPG IMG 0666.JPG

IMG 0669.JPG IMG 0672.JPG

IMG 0673.JPG


IMG 0635.JPG

Structural Landscapes

Serial of landscape structures as a outcome from all the research

SAM5813 BW2klein.jpg

SAM5819 BW2klein.jpg

SAM5787 BWklein.jpg

SAM5850 BW2klein.jpg

SAM5843 bwklein.jpg

SAM5835 BW2klein.jpg