part 1 - material - part 2 - danger of baking soda
Part 1

Please keep in mind that operating temperature of most HoD systems is between 120F - 160F.
Low grade materials used by vast competition has maximum operating temperature of 140F at which the material starts deforming and melting and destroying the system possibly creating fire hazard and toxic gases.
Others even use glass jars which are extremely fragile and extremely low impact resistance. It might easily brake or explode and shatter possibly causing great bodily harm and damage to you and your vehicle. Those materials are not adequate for hydrogen production and never meant to be used as such. Usage of low grade material and workmanship results in systems short life time , low efficiency and dangerous environment.

Our industrial grade construction material is rated to operate over 300F and will not shatter - being bullet proof material it is virtually unbreakable. Additionally our materials share following key attributes:

• Mechanical strength and toughness
• High Impact strength
• High abrasion resistance
• High thermal stability - over 300F ( 148C)
• High dielectric strength
• High purity
• Resistant to most chemicals and solvents
• Resistant to ultraviolet and nuclear radiation
• Resistant to weathering
• Resistant to fungi
• Low permeability to most gases and liquids
• Low flame and smoke characteristics

Difference between grades of stainless steal material!

We use only high grade 316L Stainless Steal Plates instead lower grade readily available and cheaper 304 grade Stainless Steal.

to the left you will notice 316L stainless steal grade with normal wear and tear condition - 97% efficiency after 3000 miles

to the right you will notice lower 304 grade stainless steal with extreme corrosion and under 54% efficiency.

Additionally all our plates are chemically cleaned and stress treated to ensure prolonged life.

General Description By Grade

Other differences between 304 and 316

Types 316, 316L are molybdenum-bearing austenitic stainless steels which are more resistant to general corrosion and pitting/crevice corrosion than the conventional chromium-nickel austenitic stainless steels such as Type 304. These alloys also offer higher creep, stress-to-rupture and tensile strength at elevated temperature. In addition to excellent corrosion resistance and strength properties, the Types 316, 316L Cr-Ni-Mo alloys also provide the excellent fabricability and formability which are typical of the austenitic stainless steels. Applications for Types 316 and 316L alloys include acetic acid compounds, brandy vats, corn products refining equipment, fasteners, kettles for cooking ketchup, pharmaceutical processing equipment, phosphate industry parts, photographic film processing equipment, pitting-corrosion resistance, pulp and paper processing equipment, smokestacks, textile finishing equipment, textile mill kiers, water softener tanks, wire cloth and screens (industrial) and yeast tubes. Types 316, 316L.

Stainless 316: For severe environments. Of course, there are many industrial processes that require a higher level of resistance to corrosion than Type 304 can offer.  For these applications, Type 316 is the answer.
    Type 316 is also austenitic, non-magnetic, and thermally nonhardenable stainless steel like Type 304. The carbon content is held to 0.08% maximum, while the nickel content is increased slightly. What distinguishes Type 316 from Type 304 is the addition of molybdenum up to a maximum of 3%.
Molybdenum increases the corrosion resistance of this chromium-nickel alloy to withstand attack by many industrial chemicals and solvents, and, in particular, inhibits pitting caused by chlorides. As such, molybdenum is one of the single most useful alloying additives in the fight against corrosion.
    By virtue of the molybdenum addition, Type 316 can withstand corrosive attack by sodium and calcium brines, hypochlorite solutions, phosphoric acid; and the sulfite liquors and sulfurous acids used in the paper pulp industry. This alloy, therefore, is specified for industrial equipment that handles the corrosive process chemicals used to produce inks, rayons, photographic chemicals, paper, textiles, bleaches, and rubber. Type 316 is also used extensively for surgical implants within the hostile environment of the body.
    Type 316 is the main stainless used in the marine environment, with the exception of fasteners and other items where strength and wear resistance are needed, then Type 304 (18-8) is typically used.