Thursday, March 14, 2019

Materials and Products a updated list

Links

Zi400 detergent https://eco2000.com.au/product-detail/zi-400-aircraft-colloidal-cleaner/

Penrite Classic Medium https://www.penriteoil.com.au/products/classic-medium-25w-70-mineral#/ 

Cortec http://www.cortecvci.com/index2.php

Morris https://www.lubricon.com.au/morris-lubricants/

Maintenance for a vintage aluminium bodied car.

Maintenance for a vintage aluminium bodied car.

Aim

The aim of this program was that it could be done with what can be bought in a auto store in a regional town.

General (6-monthly cycle)

To maintain the polish on the vintage aluminium bodied car it will need to be cleaned on a 6-monthly cycle.
This should consist of;
Brush vacuum the car exterior and interior. Pay particular attention to the cracks and crevices.

Painted Surfaces;

Apply a wax coating.
Ensure you work cleanly and do not allow overspray or deposits of wax on the rubber on the running boards.
With a clean terry towel cloth place some (about 20 cent piece size) Bowden’s Own Carnauba Wax on the cloth and lightly wipe the surface in a circular motion. lifting and turning the cloth often and applying more Bowden’s Own Fully Slick to the surface. Ensure the surface is fully lubricated and that the cloth never drags. Apply in small areas and buff to a shine. Allow to cure for an hour or two.
Then apply a sealer;
With a clean terry towel cloth spray some Bowden’s Own Fully Slick on the cloth and lightly wipe the surface in a circular motion. lifting and turning the cloth often and applying more Bowden’s Own Fully Slick to the surface. Ensure the surface is fully lubricated and that the cloth never drags. Apply with one cloth then buff with another clean terry towel cloth.
If recoating is required allow to cure overnight.

Aluminium

Polish

Ensure no corrosion is starting. If an area has hand prints buff with California Custom Purple polish be careful to avoid splashing. Remember with this product less is better. Do not use the same company’s deoxidizer!
Work in small 250mm squares. Ensure you remove all residue with a damp cloth and Zi400 detergent.
Only treat tarnished areas as a spot treatment.

Apply a wax coating.

Ensure you work cleanly and do not allow overspray or deposits of wax on the rubber on the running boards.
With a clean terry towel cloth spray some Bowden’s Own Carnauba Wax on the cloth and lightly wipe the surface in a circular motion. lifting and turning the cloth often and applying more Bowden’s Own Fully Slick to the surface. Ensure the surface is fully lubricated and that the cloth never drags. Apply in small areas and buff to a shine. Allow to cure for an hour or two.

Then apply a sealer;

With a clean terry towel cloth spray some Bowden’s Own Fully Slick on the cloth and lightly wipe the surface in a circular motion. lifting and turning the cloth often and applying more Bowden’s Own Fully Slick to the surface. Ensure the surface is fully lubricated and that the cloth never drags. Apply with one cloth then buff with another clean terry towel cloth.
If recoating is required allow to cure overnight. Do this after visitor hours and before visitor hours in the following morning.

German silver and Nickel plate.

Polish with Eagle one Nano Metal Polish - follow the instructions and only treat small areas at a time. Watch for over flow of polish residue.
Buff with a clean cloth and apply Bowden’s Own Carnauba Wax then Bowden’s Own Fully Slick as a sealer.

Turn wheels

Turn wheels and transmission ever 6 months by hand.

Every two years

Open bonnet.
Remove spark plugs and add 15mls of Penrite Classic Medium to each cylinder. Replace plugs and slowly turn engine on hand crank - in boot!
Internally inspect the radiator and leaks for breakages in solder joints.
Apply Leatherique to the seats, repeat if required, followed by leatherique cleaning agent several days later. Ensure there are no spills.

Materials to be used
California Custom Purple polish.
California Custom Deoxidizer.

Bowden’s Own Carnauba Wax
Bowden’s Own Fully Slick
http://www.bowdensown.com.au/products/exterior

Eagle one Nano Metal Polish
Eagle one Neverdull

Zi400 detergent
https://eco2000.com.au/product-detail/zi-400-aircraft-colloidal-cleaner/
Penrite Classic Medium
https://www.penriteoil.com.au/products/classic-medium-25w-70-mineral#/

Cortec http://www.cortecvci.com/index2.php
Morris https://www.lubricon.com.au/morris-lubricants/

Timelines

These are developed in Aeon using data gathered from the literature since 2015.

These are drafty and not displayed to the best of there ability.

Better ways exist to display them but waiting for purfection means they will never be published.

 Draft  but....




Aluminium core


Aluminium Oxide Timeline


Magnesium


Everything


Phosphate timeline

Tuesday, March 12, 2019

Maintenance Program Outline

Maintenance Program Outline version 1.01
Maintenance is often ignored in museums as it is easier to be reactive than it is to be proactive. No one questions the reactive emergency treatment whereas everyone will try and run off with the scarce funding for proactive maintenance.
This is more obvious  with the technology collections in museums tha all seem to assume are somehow very “Tough” and able to withstand abuse. There is also often a dose of reverse sexism as these things are deemed not to be “culture” but just “boys toys” and hence of little cultural worth. Unlike Art.

As you go home just think on the influence of these objects on your life - even your iphone needs maintenance in a museum context.

Short Term

Surveys

Startup

  • Re instigate maintenance program
  • Tabulate data on spreadsheet or a good database
  • Assess current Data
  • Collating Data
  • Collating reference data (manuals)
  • Further surveys
  • Develop short term program
  • Approved Materials List
  • Approved Operations List
  • Immediate work
  • Maintenance work
  • Maintenance program
  • Ongoing Monitoring
  • Background information on Materials
  • FTIR tests
  • E-Chem Tests
  • Oil and Fluid analysis
  • Logging use and storage

Medium term

  • Maintenance work
  • Ongoing Monitoring
  • Refinement

Long term

  • Coordinate practical results from many sites
  • Coordinate scientific results from many sites
  • Review procedures


Categories

Museum vehicles fall into three categories;
  •    
  • [Functional]restored        
  •    
  • [Functional]original        
  •    
  • [Non-functional]     
This guideline applies only to Functional Vehicles.
In general all functional vehicles require the following maintenance and excersise while in storage.

Maintenance

  • Inhibited Oil and lubricant changing every 2-4 years. (otherwise every 2 years)
  • Coolant changing Yearly.
  • Inhibited Hydraulic fluid changing 2-4 yearly.
  • re-grease 2yearly
  • Clean 6 monthly
    • initially 6 mothly
    • after a year yearly
  • Wash and polish (if app) 12 monthly.
  • Service 12 monthly
  • Waxing
    • initially 6 mothly
    • after a year yearly
    • if stored in carcoons

Exercise (all vehicles)

  • Wheel rotation every month.
  • Brake movement monthly
  • Suspension movement 6 monthly
  • Engine rotation 6 monthly
  • Transmission rotation 6 monthly
  • Steering movement 6 monthly
  • Oil circulation 6 monthly
  • Coolant circulation 6 monthly
  • Seal re-tensioning 3-6 monthly

Road run

  • Road run 30 miles every 4 months.
  • Preparation for road run
  • Qualified Drivers
  • Driver training
  • Licensing
  • 30-07-08
  • Definitions

Conservation management plan (Ongoing treatment profile)

What’s, how’s and why’s
  • Run
  • Exercise
  • Mechanical movement
  • Minor
  • Major

New Start

Ongoing treatment profile
  • Storage
  • Display
  • Housekeeping (Who - TA)
    • Inspect surfaces
    • Dust and vacuum
    • Inspect systems for leakage
    • Minor Mechanical movement
    • Wheels
    • Clutch
    • Brake pedal


Yearly (object Specific)
Long term (object Specific)
See below

Tend to be system specific
  • Eg a pivot point
  • Or a brake system

Examples must cover
  • Coolant systems
  • Lubrication systems (each noted individually)
  • Boilers, Fireboxes
  • Steam systems
  • Pneumatic systems
  • Hydraulic systems
  • Clutch
  • Brake
  • Power transmission
  • Electrical systems
  • Motors
  • Relays
  • Lighting
  • Transformers
  • Etc

Excersise

The following are examples

Movement – simple eg

  • door opening
  • rotation of wheels

Running/ excersise – complex - eg

  • Turning of engine while on diplay
  • 30 minutes on dynometer
  • 100 km drive mid paced
.
Links
Zi400 detergent
https://eco2000.com.au/product-detail/zi-400-aircraft-colloidal-cleaner/
Penrite Classic Medium
https://www.penriteoil.com.au/products/classic-medium-25w-70-mineral#/

Cortec http://www.cortecvci.com/index2.php
Morris https://www.lubricon.com.au/morris-lubricants/



Preventive conservation and maintenance of aluminium artefacts and collections - updated 2019


Preventive conservation and maintenance of aluminium artefacts and collections

David Hallam
RM Tait and Associates
Toowoomba Queensland


This article has an extended bibliography and materials list at the end

Abstract
Aluminium alloys have vastly different metallographic structures and material properties depending on composition and heat treatment regimens therefore they require specific preventive conservation approaches. One approach will not cover all alloys.
Reviews of current museum approaches to preventive conservation of aluminium alloys both published and unpublished are discussed along with industrial and military approaches. Methods considered include desert storage, dehumidification, the use of Volatile Corrosion Inhibitors (VCI) and Water Displacing Corrosion Preventatives (WDCP's).
Deterioration of objects in storage and on display are discussed with recommendations for best practice storage, environmental standards based on some highly successful and examples of catastrophic examples. Occupational health and safety hazards in relation to aluminium are addressed.

Introduction

In terms of volume of production, aluminium is the world's leading nonferrous metal. Because of its lightness and unique physical and chemical properties, its suitability for the construction of aircraft was recognised early last century. As a construction material it was essential to have stable and resistant surface finishes. Surface finishing techniques developed rapidly in both Europe and the US. So much so that it is now thought of as an extremely stable material but the passivating oxide film can breakdown in a wide variety of circumstances leading to rapid deterioration.
The physical, chemical, electrochemical and mechanical properties of aluminium and its alloys all vary in accordance with composition, heat treatments and environmental exposure factors. With more than 100 variations in the composition and heat treatments there are a large number of preventive conservation options that need to be exercised.

Conservation Literature

An electronic search on the preventive conservation of aluminium in a museological context is dominated by the making of preventive conservation supports for historic works (Mazzolani,2009). The literature on the preventive conservation of Aluminium heritage objects is scant and covers mainly sculpture, built heritage and Large Technological objects (LTO'S).

Technological Objects

Technology preservation -- has always followed engineers and technical practice. It is only really recently - in the last two to three decades that conservation practice has made an indent in the treatments and approaches of technological object conservation.
Back in the 1970's the preservation of aircraft stored out of doors was a concern of National Aeronautical and Space Museum (NASM) and curator Bob Mikesh (Robert C. Mikesh ,1971)(R. C. Mikesh, 1989)( R. Mikesh, 1997). By the 1980's the conservation of technology was well established as a growing theme in materials conservation methodologies were not well understood. MacLeod, Degrigny and Bailey (MacLeod 1983) (Degrigny 1993), (Bailey, 2004) all worked on the problems of aircraft recovered from the sea. Hallam, Adams (Adams and Hallam, 1993) and Ashton (Ashton and Hallam 1990) were looking at the original surfaces and approaches to technological conservation.  Work on preventive approaches for aircraft continues today with the work of Schwarz (Schwarz and Fix, 2011) and Macleod (MacLeod, 2006). Michael Brunott, Ainslie Greiner, David Hallam, David Thurrowgood, worked on the Conservation Maintenance Programs for Functional Objects and the problems of corrosion in breaking system (Hedditch et al., 2011). Otieno-Alego, Hallam and Creagh did a lot of work on proving waxy and commercial coatings were useful for the conservation of technology items (Otieno-Alego et al., 1998) (Otieno-Alego et al., 1998) (Otieno-Alego et al., 1997).

Structure and finishes of Aluminium

With the development of aluminium and its alloys as a construction material, the need arose for stable and resistant surface finishes and techniques developed rapidly in both Europe and the US. These finishes can offer important historical and technical information. As intrinsic parts of the object, every effort should be made to devise conservation strategies to retain them. It is only through an understanding of the construction of an object and its deterioration that appropriate treatments can be developed. Aircraft are made up of a body that will be predominately one form of aluminium alloy. (e.g. in an US WW2 aircraft 2024 T3 alloy skin and 7075 alloy parts, in a Japanese aircraft of the same period it will be a SD and ESD alloy, ditto French or Australian). . For US WW2 aircraft they a thin laminate of pure aluminium called Alcad.
In the case of a WW2 binocular from the Japanese it will be copper plate then a "crinkle coat" nitrocellulose black paint. On a British seaplane it would be a synthetically grown aluminium oxide (anodising in chromic acid) and a good dose of zinc chromate paint. A German plane of the same period would have clad sheeting, anodised aluminium and also an alkaline chromate conversion coating called the MBV coating. Zinc chromate paint will also be present in a nitrocellulose or acrylic base.In all case paints and primers also will also cover the surface.
Modern examples are the MacBook computer surface  made by chemical etching and abrasive blasting - to give a mat finish - then bright anodising - a technique it shares with the bright-work on a 1970 Volvo wagon.

Insert figure 1
Figure 1 Bright anodized aluminium a 1970 Volvo Wagon

These surfaces are complex and need to be understood before any preventive treatments are even thought about.

Surfaces are what makes up your object special and the nature of these oxide coatings has been previously reported (Adams and Hallam, 1993)

Degradation of Aluminium

Aluminium was used for the dome at the San Gioacchino Church in Rome in 1897 The alloy 98.3% Al with Fe and Si has proved reliable with minimal corrosion over the last 100 years was the parent of the 1000 series alloys using 99.5% pure aluminium.But when aluminium fails it can be quite spectacular. I remember showing a visitor a Zero aircraft with ESD (extra Special Duralumin) spar caps. The visitor commented that it was amazing that they were still using wood in the structure having totally mistaken the corroded metal. The ESD had severe inter granular corrosion and looked just like bleached degraded wood. United States WW2 aircraft deteriorate in the same way as the figure (2) illustrates.

Figure 2
Lightning main spar showing spar cap delamination where it was immersed in a swamp

Aluminium alloys have failure mechanisms that include pitting, galvanic, filiform corrosion while for the 2000-7000 age-hardenable alloys exfoliation and stress corrosion are major factors. (Vargel, 2004);
Aluminium alloys have corrosion rates that are minimal till the RH% gets to be over 60% (Dean and Rhea E. C. 1982). Pollutants such as SO2, NH3, Cl increase the corrosion rate and promote pitting and crevice corrosion while reducing the threshold at which corrosion rates start to increase. When exposed to very high SO2 concentrations and relative humidity above 50%, most aluminium alloys will corrode rapidly, forming a hydrated aluminium sulphate.Dust deposits attract moisture and pollutants resulting in increased corrosion rates. In some cases this may lead to pitting of upper surfaces of objects in unprotected storage.

Insert figure 3
Internal Paint failure in a Dornier Seaplane

Water staining is also possible due to the thermal conductivity of aluminium promoting condensation on objects. Water build up in void spaces is also due to condensation with resulting high corrosion rates.

Pourbaix

In aqueous solutions the stability domain of the oxide coatings that passivate aluminium surfaces with 8.44 (Pourbaix, 1966) (Deltombe and Pourbaix, 1958) for the metal

Insert figure 4
Inter-granular corrosion caused by chloride, high RH and the alloys type and heat treatment.
Preservation Approaches
Traditional Approaches

Mechanics and engineers, architects and artists, corrosion scientists and craftspeople that use aluminium will all approach it's preservation from differing perspectives. Their approaches will not be the same as a heritage preservation specialist or conservator. Having seen some of the failures in industry they will tend to take a non-preventative approach. Their "Corrosion is cancer" or the pragmatic "just blast clean it" approach will not win unified support with conservators. Neither will the "cotton bud" approach of conservators win them over.
A logical decision making approach is needed to the objects preservation needs.

Significance

A significance assessment, a document outlining what is important about the object, to whom, and why, in accordance with the methodology outlined in Significance 2 (Russell and Winkworth, 2010) is the key element of a preservation strategy. Such statements outline what about the object is significant and needs to be preserved and provide a rational basis for retention of objects in a collection in a vast array of conditions. It is a mechanism for reconciliation of materials..

Insert figure 5
Figure 5 A Wankel engined generator after conservation treatment and inhibition note the surface tells the story of the use in the red sands of the Australian outback not the technological mastery of the Wankel engine
.
Any minimal gain in stability and preservation of original materials would be at the expense of the objects significance as a focal point of a community and continuing cultural tradition ( Wain, 2012). Aluminium objects are no different.

Insert figure 6
Figure 6 close up of the adhered red dirt on the fuel tank paint. Note the weld in the tank too adding to the surface information.

Decision Making

As we can see from above decisions about treating museum objects are not based purely only on their physical state or the science of preservation, many other factors come into play in the decision making process. Each object has a life and things that have happened to it over that life can be read from the object. There may be connections or evidence of important historic events, cultural or religious practices or ownership or use by an important national figure.

Insert figure 7
Figure 7 After Humphreys - conservation decision-making zone.

Conservation treatments have to be carefully crafted so that the evidence of the object’s “life” is not damaged. This requires an understanding of the values that make the object significant and a decision about what stage in the object’s life will be represented after work is complete. Significance and value are the primary determinates of the treatment approaches to be taken with an object or collection of objects.

Risk – damage to significance
Risk - Corrosion in static storage.

Objects with lubrication, hydraulic and cooling systems corrode and deteriorate if they are stored without maintenance and monitoring program that circulates and changes inhibitors. This was exemplified by the studies carried out by Heath et al on a Lancaster Bombers coolant system (G. A. Heath et al., 2002). Objects with void spaces and lap joints faire a little better in static storage but will still corrode where moisture and debris can build up. The risk of corrosion detrimentally affecting the significance of the objects is very high.

Risk- Analysis Monitoring object and environment

Looking at the objects under your care are the best methods of accessing the risks of deterioration.
Monitoring methods for tracking corrosion and deterioration objects can be divided into the following types;Sensual, Visual, Physical analysis,and Chemical analysis
The interpretation of these variables is often subjective! Typically an older traditionally trained mechanic or engineer will use all of these to access the state of an object and its ability to perform its original function. Smell, taste, feel, sound and look are all critical in the engineers' decision-making. Rather than measure, the pH of a fluid the traditionalist will access the acidity much as a traditional winemaker would – smell and taste.
Conservators do not necessarily have the skills (or desire) to emulate this so have to rely on a quantitative approach to assessment of condition or change in condition.
Fluid analysis has been used as a tool in the monitoring and failure analysis of operating LTO's for decades (Myshkin et al., 2003). This has mainly been with high value installations or with LTO that will cause a high loss of life if they should fail (e.g. aircraft). Detection of changes in corrosion or wear before its effects can be seen or heard means that remedial action can avert tragedy and the high value asset can be repaired and put back into service. XRF using a portable XRF unit is useful; for tracking alloying elements in oils , brake fluids and coolants but as it is a bulk monitoring it only give an indication of what is happening in the thin films and crevasses and often results are visible only after substantial damage has already happened.
Measurement of changes in structural dimensions are one way of monitoring the state of large externally displayed objects and are currently being used with success in Hong Kong  (Tse et al. ,2011) and Fremantle on (dry docked) ship and a submarine.

Risk

Risk assessment in industry is a well managed process (Fujiyama et al., 2004). Getting conservators to place formal risk assessement into a practical framework is challenging however, by multiplying the risk by a fractional consequence factor a hierarchy of needs is rapidly developed (Hallam et al, 2010)

Insert figure 8
Figure 8 In this example storage and limited use is the best preventive outcome.

Corrosivity Measurements

The effect of environment on the materials of construction is critical to the long term preservation of objects. Having effective methods for assessing the environment of storage and display would mean this data could be used to predict the maintenance requirements of the objects and predict rates of decay and lifetimes in a meaningful way (Ryhl-Svendsen, 2008). This kind of approach has been used in the Defence forces to predict maintenance requirements of the fleet and predict budgets.

Preventive conservation of Aluminium objects
Cleanliness

Cleanliness is critical with aluminium since defects in the protective oxide film will respond to differential aeration microenvironments created by grease, dirt and dust. In addition the different porosity of coatings and their variable permittivity to oxygen migration will seriously affect the long term performance of the underlying metal It is essential to avoid alkaline solutions since these will dissolve significant parts of the oxide film which contains all the historical information about the object. Similarly it is vital not to use strong mineral acids to clean the metal. Use of non-ionic detergents such as Lissipol The metals finishing and inhibitor companies like Turco, Cortec or Ardrox will have a product that can do exactly what you want in the manner you wish to.
Removal of dust and light grim with microfiber cloths is very effective.

Insert figure 9
Figure 9 Reducing time of wetness by reducing pooling of water.

Reducing water accumulation and time of wetness

Reducing water accumulation and time of wetness on objects will reduce corrosion rates by several orders of magnitude (Vernon, 1927) In the simplest case it could mean making sure water does not pool in, on or around the object . (Fig 10) or moving the object into a covered area or placing it in a appropriate storage area.
Insert figure 10

Figure 10 Moving objects indoors significantly reduces corrosion rates.

Coatings

Waxes and acrylics are not effective as a "maintenance” coating. For large objects in the less than ideal storage conditions, such as commercial aircraft, the best approach is to use Water Displacing Corrosion Preventatives (WDCP) (Wilson and Devereux 1984). These coatings can be used in museums as part of a cyclical maintenance program (Hallam et al. 2004). Likewise they could also be used on internal void spaces of sculptures and other objects where condensation is a risk. With lacquers we need to be aware that aluminium will undergo filiform corrosion under them if no inhibitor is present and pollution residues are present on the metal surface. Insufficent film thickness is a critical factor in promoting this form of corrosion.

Mothballing

Placing collections into long term storage has been practiced by the Military and their techniques of outdoor storage can be emulated with success (Mikesh 1989) Techniques involving dehumidification have been well documented (Munters ,1984) (Cargoaire, 1988)(Turner, 2005)
Wrapping with plastic shrink wrap to create sealed environments as well as the use of , inhibitors coating and washing (Gelner, 1998) (Miksic, Johnson, and Martin, 1984)
None of these strategies is a panacea as they all need to be accessed for periodic inspections and this will often seriously compromise the protective systems.

Maintenance strategies.

Products and Procedures

Finding a successful preventive practice model or suite of options involves a critical assessment of the relevance of commercial products and trade practices that have been rigorously assessed in conservation laboratories for their relevance and effectiveness (figure11)

Insert figure 11
Figure 11 Produce a collaborative workspace.

Maintenance

Maintenance of operating functional objects in safe condition is essential to avoid the serious consequences of incorrect storage. Works by Weil and Hallam et. al. should be consulted for details of practice and procedures that need to be followed, particularly for LTO’s. Maintenance Framework
Experience at the National Museum of Australia (NMA) has developed new procedures that assist museum collection managers to develop scheduled monitored maintenance and maintain full functionality preservation as cost effective approaches to care of technology collections. This approach targets conservation for the most important, most used and most vulnerable and demonstrates the consequences of no response. Details of the methodology can be found on the NMA website and in recent publications in the ICOM CC Metals Working Group conferences (Hallam in Metal 2010).

Insert figure 12

Figure 12 David Monthan Airforce base

Dehumidification and desert storage

Dinsmore and Lund (1962), ,Erickson.(1954)  and Killingray (1986) discuss the problems of the storage of functional objects in a military context for periods of non-operation. Dehumidification and periodic exercise are necessary to maintain functional objects in operable condition in long term storage. David Monthan AFB (Airforce Base) (fig 12) uses natural dehumidification and yearly maintenance on its flying aircraft. Some aircraft have been stored for 20 years prior to being flown out. The Prototype 707 owned by NASM SI was stored under this regime before being flown to Seattle for a rebuild in 1990 and finally to The Dash 80's to Dulles International Airport near Washington, D.C. on August 27, 2003.
Dehumidification has been used in museums for objects such as the optical equipment at the Australian War Memorial in Canberra or tanks in a maintenance storage cycle. A similar approach using the natural dry environments of Canberra has been used to store vehicles (fig 13).

Insert figure 13
Figure 13 Vehicles kept dust free and dry in storage maintenance cycle.

Hazards

When dealing with materials that were produced in the last century one has to assume the primers used were the best available, hence we can assume that zinc chromates were used extensively in the construction of objects. Chromates will also have been used in the anodizing processes. Cadmium will have been used in any associated ironwork.  If we are dealing with aircraft we can assume that radioactive luminous paints will have been part of the instruments and may be redeposited through lower sections of the aircraft structure.
Since PCB’s will exist in the electronics it is essential to take a cautious approach to ensure we understand the hazards and how to deal with them within appropriate legislative backgrounds of your state or country.

Conclusions

We need to be aware of what you are conserving and why, and for whom you are doing this job. It is important to understand what is significant and what are the risks of losing that significance due to degradation? We need to choose our preventive processes to minimize that degradation with minimal intervention. We need to choose and execute our preventive processes in a collaborative manner and unbiased manner. Aluminium alloy artefacts need to be kept clean, dry and maintained. During these processes it is vital to be alert to a wide range of hazards to health associated with the use of past technologies where the implications of long-term exposure to toxic and radioactive materials was poorly understood.
Acknowledgements

I would like to thank Ian MacLeod for reviewing the paper in its draft form and giving some valuable guidance.

Author Biography
David Hallam has been involved in the conservation of cultural heritage since the mid 1970’s and have specialized in metallic and technological objects conservation. For more than 20 years headed the metallic objects conservation program at the Australian War Memorial and has a practical understanding of World War Two objects and their deterioration.
Since then he was Head of Conservation at Queensland Museum and in 1999 established the objects conservation program at the National Museum of Australia (NMA). In 2012 David Hallam left the public service in 2012 to become a consultant, undertake further study and rebuild a shop in Tasmania.
During his career he has always had a practical hands on approach to preventive conservation programs, treatment and treatment development programs. This approach lead to his appointment as a Woodrow Wilson Fellow of the National Air and Space Museum of the Smithsonian Institution (NASM SI) in 1989 and to several appointments as a visitor or Visiting Fellow at the Research School of Chemistry at ANU.

References

Adams, Chris, and David Hallam. 1993. “Finishes on Aluminium: A Conservation Perspective.” In Saving the Twentieth Century: The Conservation of Modern Materials: Proceedings of a Conference Symposium 91: Saving the Twentieth Century, Ottawa, Canada, 15 to 20 September, 1991 = Sauvegarder Le XXe Siècle: La Dégradation et Conservation Des Matériaux Modernes: Les Actes de La Conférence Symposium 91: Sauvegarde Le XXe Siècle, Ottawa, Canada, Du 15 Au 20 Septembre 1991, 273–86. Canada: Canadian Conservation Institute.
Ashton, John, and David Hallam. 1990. “The Conservation of Functional Objects–an Ethical Dilemma.” AICCM Bulletin 16 (3): 19–26.
Bailey, G.T. 2004. “Stabilization of a Wrecked and Corroded Aluminium Aircraft.” In Metal 04: Proceedings of the International Conference on Metals Conservation = Actes de La Conférence Internationale Sur La Conservation Des Métaux, Canberra, Australia, 4-8 October 2004, 453–64. Australia: National Museum of Australia.
Brunott, Michael, Ainslie Greiner, David Hallam, and David Thurrowgood. 2011. “Conservation Maintenance Programs for Functional Objects.” In Metal 2010: Proceedings of the Interim Meeting of the ICOM-CC Metal Working Group, October 11-15, 2010, Charleston, South Carolina, USA, 421–29. United States: Clemson University.
Cargoaire. 1988. The Dehumidification Handbook. Amesbury, Massachusetts: Cargocaire Engineering Corporation.
Dean, S.W, and Eds Rhea E. C. 1982. “Atmospheric Corrosion of Metals.” In , edited by S. C. Byrne and A. C. Miller, pp.359–373. Effect of Atmospheric Pollutant Gases on the Formation of Corrosive Condensate on Aluminium. American Society for Testing and Materials.
Degrigny, Christian. 1993. “La Mise Au Point D’un Traitement Cathodique de Stabilisation de Vestiges Aéronautiques Immergés En Alliages D’aluminium.” In Saving the Twentieth Century: The Conservation of Modern Materials: Proceedings of a Conference Symposium 91: Saving the Twentieth Century, Ottawa, Canada, 15 to 20 September, 1991 = Sauvegarder Le XXe Siècle: La Dégradation et Conservation Des Matériaux Modernes: Les Actes de La Conférence Symposium 91: Sauvegarde Le XXe Siècle, Ottawa, Canada, Du 15 Au 20 Septembre 1991, 373–80. Canada: Canadian Conservation Institute.
Deltombe, E, and M. Pourbaix. 1958. “The Electrochemical Behaviour of Aluminium. Potential pH Diagram of the System Al-H2O at 25C.” Corrosion 14 (11): pp.496–500.
Deltombe, E, C Vanleugenhaghe, and M Pourbaix. Aluminium Chapter IV, Section 5.2.
Dinsmore O. R Jr. 1962. “Protection Problems Encountered in Storing Military Equipment.” Materials Protection 1 (1): pp.66–73.
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