PTA-Welding

FeV-alloy

PTA-welding

Ni-matrix + FTC

Nickel Base (Ni)

Typical chemical composition of the matrix (in wt.-%)

DURMAT^®	C	Si	Cr	Ni	Mo	Nb	V	B	Co	Fe	+	Hardness
33 PTA DURMAT^® 33 PTA Hardness: 33 HRC Chem. composition: NiSF-Alloy. Gas atomized. Typical Properties and Applications: Special powder for glass industry Request Data sheet	-	4.1	6	Bal.	-	-	-	1	-	<3	-	33 HRC
38 PTA DURMAT^® 38 PTA Hardness: 40 HRC Chem. composition: NiSF-Carbide. Blended. 70% matrix + 30% FTC Typical Properties and Applications: Heat and corrosion resistant Abrasion resistant Request Data sheet	<0.1	2.5-3.5	6	Bal.	-	-	-	1.8-2.4	-	<3	-	40 HRC
54 PTA DURMAT^® 54 PTA Hardness: 56-61 HRC Chem. composition: NiSF-Alloy. Gas atomized. Typical Properties and Applications: Heat and corrosion resistant basierend auf dem Mo- und Cu-Gehalt Abrasion resistant Request Data sheet	0.5-0.7	3.5-4.5	15-17	Bal.	2-4	-	-	3-4	-	<4	Cu: 2-3	56-61 HRC
55 PTA DURMAT^® 55 PTA Hardness: 50-55 HRC Chem. composition: NiSF-Alloy. Gas atomized. Typical Properties and Applications: Heat and corrosion resistant Abrasion resistant Request Data sheet	0.4-0.6	3.5-4.5	12-14	Bal.	-	-	-	2.5-3.5	-	<4	-	50-55 HRC
56 PTA DURMAT^® 56 PTA Hardness: 40 HRC Chem. composition: NiSF-Alloy. Gas atomized. Typical Properties and Applications: Heat and corrosion resistant Abrasion resistant, low friction Request Data sheet	0.25	3.2	7.5	Bal.	-	-	-	1.8	-	<4	-	40 HRC
57 PTA DURMAT^® 57 PTA Hardness: 58-60 HRC Chem. composition: NiSF-Alloy. Gas atomized. Typical Properties and Applications: Heat and corrosion resistant Abrasion resistant, low friction Request Data sheet	0.9-1.1	4	15-17	Bal.	-	-	-	3.2	-	<4	-	58-60 HRC
58 PTA DURMAT^® 58 PTA Hardness: 50-52 HRC Chem. composition: NiSF-Alloy. Gas atomized. Typical Properties and Applications: Heat and corrosion resistant Abrasion resistant, low friction Request Data sheet	0.75	4.3	15	Bal.	-	-	-	3.1	-	<4	-	50-52 HRC
59 PTA DURMAT^® 59 PTA Hardness: 50-52 HRC Chem. composition: NiSF-Alloy. Gas atomized. Typical Properties and Applications: Heat and corrosion resistant Abrasion resistant, low friction No Cr-content Request Data sheet	<0.1	3	-	Bal.	-	-	-	3	-	<2	-	50-52 HRC
61 PTA DURMAT^® 61 PTA Hardness: Matrix: 50-52 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 59 PTA: 40 % DURMAT^® FTC: 60 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant High content of Fused Tungsten Carbide (FTC) Request Data sheet	<0.1	3	-	Bal.	-	-	-	3	-	<2	-	Matrix: 50-52 HRC
62 PTA DURMAT^® 62 PTA Hardness: Matrix: 50-52 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 59 PTA: 40 % DURMAT^® FTC: 60 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant High content of Spherical Fused Tungsten Carbide (SFTC) Request Data sheet	<0.1	3	-	Bal.	-	-	-	3	-	<2	-	Matrix: 50-52 HRC
63 PTA DURMAT^® 63 PTA Hardness: Matrix: 40 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 56 PTA: 40 % DURMAT^® SFTC: 60 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant High content of Fused Tungsten Carbide (FTC) Request Data sheet	0.25	3.2	7.5	Bal.	-	-	-	1.8	-	<2.5	-	Matrix: 40 HRC
65 PTA DURMAT^® 65 PTA Hardness: Matrix: 50-52 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 58 PTA: 40 % DURMAT^® FTC: 60 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant High content of Fused Tungsten Carbide (FTC) Request Data sheet	0.75	4.3	15	Bal.	-	-	-	3.1	-	<4	-	Matrix: 50-52 HRC
66 PTA DURMAT^® 66 PTA Hardness: Matrix: 50 HRC Chem. composition: NiSF-Carbide. Blended. +Special Carbides: 10-15 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant Request Data sheet	0.4	<0.1	15-17	Bal.	-	-	-	3	-	<4	SC: 10-15	Matrix: 50 HRC
67 PTA DURMAT^® 67 PTA Hardness: Matrix: 50 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 58 PTA: 40 % DURMAT^® FTC: 60 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant <8% Special Carbides (SC) Request Data sheet	0.02	3	-	Bal.	-	-	-	3	-	<2	-	Matrix: 50-52 HRC
68 PTA DURMAT^® 68 PTA Hardness: Matrix: 50 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 59 PTA: 35-40 % ® SFTC: 56-60 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant Request Data sheet	0.02	3	-	Bal.	-	-	-	3	-	<2	-	Matrix: 50 HRC
71 PTA DURMAT^® 71 PTA Hardness: Matrix: 50-55 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 77 PTA: 40 % ® FTC: 60 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant Request Data sheet	<0.1	3	-	Bal.	-	-	-	3	-	<45	-	Matrix: 50-55 HRC
72 PTA DURMAT^® 72 PTA Hardness: Matrix: 50-55 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 77 PTA: 40 % ® FTC: 60 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant Request Data sheet	<0.1	3	-	Bal.	-	-	-	3	-	<45	-	Matrix: 50-55 HRC
73 PTA DURMAT^® 73 PTA Hardness: Matrix: 50-55 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 77 PTA: 40 DURMAT^® MCTC: 60 Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant Request Data sheet	<0.1	3	-	Bal.	-	-	-	3	-	<45	-	Matrix: 50-55 HRC
74 PTA DURMAT^® 74 PTA Hardness: Matrix: 50 HRC Chem. composition: NiSF-Matrix: 40 % DURMAT^® FTC: 50 % Special Carbides (SC): <10 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant Request Data sheet	<0.1	<0.1	-	Bal.	-	-	-	3.5	-	<5	-	Matrix: 50 HRC
77 PTA DURMAT^® 77 PTA Hardness: 50-55 HRC Chem. composition: Ni-Alloy. Gas atomized. Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant Request Data sheet	<0.1	3	-	Bal.	-	-	-	3	-	<45	-	50-55 HRC
79 PTA DURMAT^® 79 PTA Hardness: Matrix: 58-60 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 57 PTA: 40 % DURMAT^® FTC: 60 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant Request Data sheet	0.9-1.1	4	15-17	Bal.	-	-	-	3.2	-	<4	-	Matrix: 58-60 HRC
84 PTA DURMAT^® 84 PTA Hardness: Matrix: 58-60 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 33 PTA: 40 % DURMAT^® MWC: 60 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant High content of MCTC Request Data sheet	-	4.1	15-17	Bal.	-	-	-	3.2	-	<4	-	Matrix: 33 HRC
85 PTA DURMAT^® 85 PTA Hardness: Matrix: 50-52 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 58 PTA: 40 % DURMAT^® MCTC: 60 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant High content of MCTC Request Data sheet	0.75	4.3	15	Bal.	-	-	-	3.1	-	<4	-	Matrix: 50-52 HRC
93 PTA DURMAT^® 93 PTA Hardness: Matrix: 50-52 HRC Chem. composition: NiSF-Carbide. Blended. DURMAT^® 59 PTA: 40 % Tungsten Carbide Mixture: 60 % Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant High conent of Tungsten Carbide Mixture Request Data sheet	<0.1	3	-	Bal.	-	-	-	3	-	<2	-	Matrix: 50-52 HRC
110 PTA DURMAT^® 110 PTA Hardness: Matrix : 40 HRC Chem. composition: Carbide. Blended. Matrix: 40% Granulate WC-Co 94-6: 60% Typical Properties and Applications: Friction resistant High abrasion resistant High content of sintered WC-Co-pellets Request Data sheet	0.25	3.2	7.5	Bal.	-	-	-	1.8	-	<4	-	Matrix: 40 HRC
401 PTA DURMAT^® 401 PTA Hardness: Matrix: 55-56 HRC Chem. composition: Ni-Carbide. Blended. Matrix: 50% Carbide: 50% Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant High content of Fused Tungsten Carbide (FTC) und Special Carbides (SC) Request Data sheet	<0.1	-	20-24	Bal.	8-9	3.5	<5	-	<4	<5	-	Matrix: 55-56 HRC
411 PTA DURMAT^® 411 PTA Hardness: Matrix: 55-56 HRC Chem. composition: Boride, Carbide. Blended. Matrix: 50% Carbide: 50% Typical Properties and Applications: Heat and corrosion resistant High abrasion resistant High content of Spherical Fused Tungsten Carbide (SFTC) und Special Carbides (SC) Request Data sheet	<0.1	-	20-24	Bal.	8-9	3.5	<5	-	<4	<5	-	Matrix: 55-56 HRC
470 PTA DURMAT^® 470 PTA Hardness: 33 HRC Chem. composition: Boride, Carbide. Typical Properties and Applications: Heat and corrosion resistant Request Data sheet	-	2.75	4	Bal.	-	-	-	1	-	-	Andere: 5	33 HRC
625 PTA DURMAT^® 625 PTA Hardness: 210 HV Chem. composition: Ni-Alloy. Gas atomized. Typical Properties and Applications: High corrosion resistance e.g. in acids with chloride content Sea water resistant Good resistance against friction Request Data sheet	0.05	-	21	Bal.	9,2	3.5	-	-	-	3	-	210 HV

EXAMPLE | DURMAT^® 61 PTA

Hardness matrix: 50-52 HRC
HardnessDURMAT^® FTC: 2,360 HV_0.1
NiSF-Carbide. Blended.

Heat and corrosion resistant
High abrasion resistant
High content of Fused Tungsten Carbide (FTC)

Iron Base (Fe)

Typical chemical composition of the matrix (in wt.-%)

DURMAT^®	C	Si	Mn	Cr	Ni	Mo	V	W	B	Fe	+	Hardness
108 PTA DURMAT^® 108 PTA Hardness: Matrix: 250 HB Chem. composition: FeCr-Carbide. Blended. 40% matrix 60% granulate WC-Co 94-6 Typical Properties and Applications: Friction resistant High abrasion resistant High content of sintered WC-Co-Pellets Request Data sheet	0.4	-	15-16	14-15	1.2	-	-	-	1	Bal.	-	Matrix: 250 HB
109 PTA DURMAT^® 109 PTA Hardness: Matrix: 170 HB Chem. composition: FeCr-Carbide. Blended. 40% matrix 60% granulate WC-Co 94-6 Typical Properties and Applications: Friction resistant High abrasion resistant High content of sintered WC-Co-Pellets Request Data sheet	<0.1	-	6-7	18-19	9	-	-	-	-	Bal.	-	Matrix: 170 HB
502 PTA DURMAT^® 502 PTA Hardness: 53-58 HRC Chem. composition: Fe- Alloy. Gas atomized. Special Carbides (SC): 9-10 % Typical Properties and Applications: Resistant against heavy impact and abrasion Fine Special Carbides (SC) (9-10%) Request Data sheet	2.2-2.6	-	-	<6	-	1-1.5	-	-	-	Bal.	SC: 9-10	53-58 HRC
505 PTA DURMAT^® 505 PTA Hardness: 55-60 HRC Chem. composition: Fe- Alloy. Gas atomized. Special Carbides (SC): 10-11 % Typical Properties and Applications: Resistant against heavy impact and abrasion Fine Special Carbides (SC) (10-11%) Request Data sheet	2.4-2.8	-	-	<7	-	1-1.25	-	-	-	Bal.	SC: 10-11	55-60 HRC
506 PTA DURMAT^® 506 PTA Hardness: 60-62 HRC Chem. composition: Fe- Alloy. Gas atomized. Special Carbides (SC): 15-18 % Typical Properties and Applications: Resistant against heavy impact and abrasion Fine Special Carbides (SC) (18 %) Request Data sheet	3.1	-	-	<9	-	1.5-1.8	-	-	-	Bal.	SC: 15-18	60-62 HRC
507 PTA DURMAT^® 507 PTA Hardness: 60-65 HRC Chem. composition: Fe- Alloy. Blended. Special Carbides (SC): 22-25 % Typical Properties and Applications: Resistant against heavy impact and abrasion Fine Special Carbides (SC) (20%) Request Data sheet	3.1	-	-	<9	-	1.3-1.8	-	-	-	Bal.	SC: 22-25	60-65 HRC
516 PTA DURMAT^® 516 PTA Hardness: 215 HB Chem. composition: Fe-Alloy. Gas atomized Typical Properties and Applications: Austenitic weld metal with low carbon content Resistant against pitting corrosion and intercrystalline corrosion Max. Temperature: 400 °C Request Data sheet	0.03	-	-	18	13	3	-	-	-	Bal.	-	215 HB
520 PTA DURMAT^® 520 PTA Hardness: 170 HB / 400 HB* Chem. composition: Fe-Alloy. Gas atomized. Typical Properties and Applications: Austenitic weld metal with low carbon and Mn content/br> Corrosion resistant Request Data sheet	<0.1	-	6-7	18-19	9	-	-	-	-	Bal.	-	170 HB / 400 HB*
525 PTA DURMAT^® 525 PTA Hardness: 250 HB / 500 HB* Chem. composition: Fe-Alloy. Gas atomized. Typical Properties and Applications: Austenitic weld metal with low carbon and Mn content Corrosion resistant Thermal shock resistant up to 850 °C Request Data sheet	0.4	-	15-16	14-15	1.2	-	-	-	-	Bal.	-	250 HB / 500 HB*
530 PTA DURMAT^® 530 PTA Hardness: 47-52 HRC Chem. composition: Fe-Alloy. Gas atomized. Typical Properties and Applications: Corrosion resistant Abrasion resistant Request Data sheet	0.3	0.6	1	11	-	1.3	1	-	-	Bal.	Co: 1.6	47-52 HRC
531 PTA DURMAT^® 531 PTA Hardness: 210 HV Chem. composition: Fe-Alloy. Gas atomized. Typical Properties and Applications: Plungers, hydraulic cylinders, chemical and food industry etc. Corrosion resistant Resistant against pitting corrosion in chloride containing media Request Data sheet	0.3	0.7	1.2	22	5.5	3.3	1	-	-	Bal.	-	210 HV
536 PTA DURMAT^® 536 PTA Hardness: 58 HRC Chem. composition: Fe-Alloy. Gas atomized. Typical Properties and Applications: Corrosion resistant Abrasion resistant Fine carbide microstructure Request Data sheet	1	-	-	4.2	-	5	2	6.4	-	Bal.	-	58 HRC
541 PTA DURMAT^® 541 PTA Hardness: 52-55 HRC Chem. composition: Fe-Alloy. Gas atomized. Typical Properties and Applications: Extruder screws in meat manufacturing industry, chemical industry Corrosion and abrasion resistant Request Data sheet	2.6	1	1	25	0.4	-	-	-	-	Bal.	-	52-55 HRC
559 PTA DURMAT^® 559 PTA Hardness: 57 HRC (1st layer) Chem. composition: Fe-Alloy. Gas atomized. Typical Properties and Applications: FeCrC alloy Abrasion resistant Request Data sheet	3.9	1.5	-	31	-	-	-	-	-	Bal.	-	57 HRC (1st layer)
560 PTA DURMAT^® 560 PTA Hardness: 53-55 HRC Chem. composition: Fe-Alloy. Gas atomized. Typical Properties and Applications: Hard-facing on guiding rolls, cutting tools, valves and crushers for recycling industry Applied when medium abrasion and corrosion is expected Suitable for impact wear Request Data sheet	0.7	2	-	8	-	-	-	-	-	Bal.	-	53-55 HRC
564 PTA DURMAT^® 564 PTA Hardness: 62-64 HRC Chem. composition: Fe-Alloy. Gas atomized. Typical Properties and Applications: FeCrC-Alloy witt B, V and W Abrasion resistant Request Data sheet	3.8	-	-	22	-	-	0.8	0.8	1	Bal.	-	62-64 HRC
601 PTA DURMAT^® 601 PTA Hardness: 58 HRC Chem. composition: Fe-Alloy. Gas atomized. Typical Properties and Applications: Crack resistant Resistant to tempering Suitable for impact wear conditions Request Data sheet	0.2-0.6	-	-	4-6	-	1-1.6	0.5-1.5	-	-	Bal.	-	58 HRC

EXAMPLE | DURMAT^® 505 PTA

Hardness: 55-60 HRC
Fe-alloy. Gas atomized. Special Carbides (SC): 10-11 %
Abrasion resistant

Resistant against heavy impact
Good sliding behaviour
Machinable.

Cobalt Base (Co)

Typical chemical composition of the matrix (in wt.-%)

DURMAT^®	C	Si	Mn	Cr	Ni	Mo	W	B	Co	Fe	+	Hardness
F PTA DURMAT^® F PTA Hardness: 42 HRC Chem. composition: Co-Alloy. Gas atomized Typical Properties and Applications: Corrosion resistant Abrasion resistant, low friction (950 °C) Request Data sheet	1.5	1.2	-	26	23	-	12	-	Bal.	-	-	42 HRC
S1 PTA DURMAT^® S1 PTA Hardness: 55 HRC Chem. composition: Co-Alloy. Gas atomized. Typical Properties and Applications: Corrosion resistant Abrasion resistant, low friction (750 °C) Request Data sheet	2.5	1.1	-	30	-	-	12	-	Bal.	-	-	55 HRC
S6 PTA DURMAT^® S6 PTA Hardness: 42 HRC Chem. composition: Co-Alloy. Gas atomized. Typical Properties and Applications: Corrosion resistant Austenitic structure bearing chrome and tungsten carbides. Resistant to high corrosion and abrasion, high impact stress and extreme temperature shocks. Impact and thermal shock resistant. Tensile strength: 900 N/mm² Request Data sheet	1	1.2	-	28	-	-	4.2	-	Bal.	-	-	42 HRC
S12 PTA DURMAT^® S12 PTA Hardness: 46 HRC Chem. composition: Co-Alloy. Gas atomized. Typical Properties and Applications: Corrosion resistant Austenitic structure bearing chrome and tungsten carbides. Improved wear resistance compared to DUROLIT 6, used for applications exposed to reduced mechanical shock. Thermal shock resistant. Tensile strength: 900 N/mm² Request Data sheet	1.4	1.2	-	27	<1	-	8	-	Bal.	<1	-	46 HRC
S21 PTA DURMAT^® S21 PTA Hardness: 280-330 HV / 430 HV* Chem. composition: Co-Alloy. Gas atomized. Typical Properties and Applications: Abrasion resistant, low friction Cobalt alloy with the highest corrosion and thermal resistance of all cobalt-base alloys Request Data sheet	-	0.5	-	26	1-3	5.2	-	-	Bal.	-	-	280-330 HV / 430 HV*
S190 PTA DURMAT^® S190 PTA Hardness: 54-58 HRC Chem. composition: Co-Alloy. Gas atomized. Typical Properties and Applications: Heat and corrosion resistant Abrasion resistant, low friction Request Data sheet	3-3.5	1	1	24-28	3	5.2	-	-	Bal.	5	-	54-58 HRC

EXAMPLE | DURMAT^® S6 PTA

Hardness: 40-46 HRC
Co-alloy. Gas atomized
Resistant to high corrosion and abrasion

Austenitic structure bearing chrome and tungsten carbides
Corrosion resistant
Impact and thermal shock resistant

PTA-Welding

Nickel Base (Ni)

DURMAT® 33 PTA

DURMAT® 38 PTA

DURMAT® 54 PTA

DURMAT® 55 PTA

DURMAT® 56 PTA

DURMAT® 57 PTA

DURMAT® 58 PTA

DURMAT® 59 PTA

DURMAT® 61 PTA

DURMAT® 62 PTA

DURMAT® 63 PTA

DURMAT® 65 PTA

DURMAT® 66 PTA

DURMAT® 67 PTA

DURMAT® 68 PTA

DURMAT® 71 PTA

DURMAT® 72 PTA

DURMAT® 73 PTA

DURMAT® 74 PTA

DURMAT® 77 PTA

DURMAT® 79 PTA

DURMAT® 84 PTA

DURMAT® 85 PTA

DURMAT® 93 PTA

DURMAT® 110 PTA

DURMAT® 401 PTA

DURMAT® 411 PTA

DURMAT® 470 PTA

DURMAT® 625 PTA

EXAMPLE | DURMAT® 61 PTA

Iron Base (Fe)

DURMAT® 108 PTA

DURMAT® 109 PTA

DURMAT® 502 PTA

DURMAT® 505 PTA

DURMAT® 506 PTA

DURMAT® 507 PTA

DURMAT® 516 PTA

DURMAT® 520 PTA

DURMAT® 525 PTA

DURMAT® 530 PTA

DURMAT® 531 PTA

DURMAT® 536 PTA

DURMAT® 541 PTA

DURMAT® 559 PTA

DURMAT® 560 PTA

DURMAT® 564 PTA

DURMAT® 601 PTA

EXAMPLE | DURMAT® 505 PTA

Cobalt Base (Co)

DURMAT® F PTA

DURMAT® S1 PTA

DURMAT® S6 PTA

DURMAT® S12 PTA

DURMAT® S21 PTA

DURMAT® S190 PTA

EXAMPLE | DURMAT® S6 PTA

DURMAT^® 33 PTA

DURMAT^® 38 PTA

DURMAT^® 54 PTA

DURMAT^® 55 PTA

DURMAT^® 56 PTA

DURMAT^® 57 PTA

DURMAT^® 58 PTA

DURMAT^® 59 PTA

DURMAT^® 61 PTA

DURMAT^® 62 PTA

DURMAT^® 63 PTA

DURMAT^® 65 PTA

DURMAT^® 66 PTA

DURMAT^® 67 PTA

DURMAT^® 68 PTA

DURMAT^® 71 PTA

DURMAT^® 72 PTA

DURMAT^® 73 PTA

DURMAT^® 74 PTA

DURMAT^® 77 PTA

DURMAT^® 79 PTA

DURMAT^® 84 PTA

DURMAT^® 85 PTA

DURMAT^® 93 PTA

DURMAT^® 110 PTA

DURMAT^® 401 PTA

DURMAT^® 411 PTA

DURMAT^® 470 PTA

DURMAT^® 625 PTA

EXAMPLE | DURMAT^® 61 PTA

DURMAT^® 108 PTA

DURMAT^® 109 PTA

DURMAT^® 502 PTA

DURMAT^® 505 PTA

DURMAT^® 506 PTA

DURMAT^® 507 PTA

DURMAT^® 516 PTA

DURMAT^® 520 PTA

DURMAT^® 525 PTA

DURMAT^® 530 PTA

DURMAT^® 531 PTA

DURMAT^® 536 PTA

DURMAT^® 541 PTA

DURMAT^® 559 PTA

DURMAT^® 560 PTA

DURMAT^® 564 PTA

DURMAT^® 601 PTA

EXAMPLE | DURMAT^® 505 PTA

DURMAT^® F PTA

DURMAT^® S1 PTA

DURMAT^® S6 PTA

DURMAT^® S12 PTA

DURMAT^® S21 PTA

DURMAT^® S190 PTA

EXAMPLE | DURMAT^® S6 PTA