a flat bar of san mai made with brilliant copper layers mixed with layers of carbon steel on black background
a flat bar of san mai made with layers of copper, carbon steel and nickel with black background
a flat bar of san mai made with layers of copper, carbon steel and nickel laying on a dark wood floor

阶梯纹 – 多层铜三昧钢

不可用

我们的梯形多铜夹钢大马士革(Ladder – Multi Copper San Mai)是一种高冲击夹钢大马士革坯料,专为追求大胆对比度、清晰梯形纹理和独特铜色温暖感,同时又不牺牲真正功能性核心完整性的刀具制造商而设计。

与我们的标准铜注入夹钢大马士革(其中铜集中在特定的夹层带中)不同,此版本将铜分布在整个夹层堆叠中。其结果是,随着研磨、成形和蚀刻过程中图案的展开,铜色亮点会出现在坯料表面,呈现出更丰富、更复杂的视觉效果。

中心是注重性能的核心钢(O1或1095,具体取决于坯料),选择其是为了保持刀刃的稳定性和韧性。核心周围是为鲜明对比而设计的多层夹层:镍带来亮度,铜带来深度和温暖,外层是我们碳梯形大马士革(1075/镍)以提供经典的梯形形貌和引人注目的效果。

制造商选择它的理由

多铜夹层:铜色点缀遍布整个坯料,呈现出更具立体感的最终外观

经典梯形图案:蚀刻后具有强烈的纹理动感和高视觉清晰度

真正的切割核心性能:O1核心钢用于功能性刀片

非常适合制作引人注目的作品:厨刀、猎刀、EDC(日常携带)和展示级项目

最佳效果
为了获得最强的对比度,请打磨至您偏好的粒度,然后进行蚀刻以展现镍的亮度、铜的温暖感和梯形纹理的清晰度。由于这是夹钢,请避免从一侧去除过多材料,以使夹层与核心的平衡保持在您想要的位置。

How to Etch Copper Infused San Mai

Step 1: Sanding

Bring your Damascus to a 400 to 600 grit finish. If you’re using muriatic acid, you can bring the Damascus up to 1200 grit, or you can leave it at 400 grit. Either is effective however the color contrast is darker with Ferric Chloride For ferric acid, keep the grit between 400 and 600. Do not buff before etching. Buffing closes the pores in the metal, which will keep the acid from absorbing, and you’ll end up with an uneven etch.

Step 2: Washing

To etch Damascus, it should be perfectly clean. Thoroughly wash your piece with pure alcohol or brake cleaner and pat it dry with a clean rag.

Step 3: Dilution

If you’re using ferric acid, dilute it with Distilled water to a 10% Ferric, 90% Distilled water ratio. Never use tap water, spring water, or filtered water – they will all cause problems with the etc. Be sure that your distilled water hasn’t been sitting for more than a year. Muriatic acid needs no dilution.

Step 4: Warming the Acid

For both muriatic acid and ferric chloride, the temperature should be between 70 and 100 degrees Fahrenheit, about room temperature. If you need to warm your acid for use, the best method is to place your container of acid into a large bowl of warm water. **Never put acid in the microwave**

Step 5: Submersion Etching

Hang your damascus piece in the container of acid so that it hangs freely and doesn’t touch the sides or bottom of the container. Leave submerged for 60 seconds then pull the damascus out of the etchant and brush the entire surface of the damascus with a soft bristle toothbrush, this will help remove any residual oil or grease that you might have missed during cleaning, and help to brush away the dissolving material as the acid does its job. After brushing submerge the damascus back into the etchant and leave it submerged for 15 minutes.

Step 6: Neutralization

Remove your Damascus piece from the acid and submerge it into your baking soda bath for 5 minutes to neutralize the acid. Pat dry. After neutralizing, spray damascus with WD-40 and hang for 3-5 hours which can darken the color contrast.

 ***You can repeat steps 5 for a deeper etch if you desire***

How to Heat Treat Carbon (1075) Damascus

Coating: ATP-641, Turco, or similar high temperatureanti-scale/decarburization coatings can be used in replace of foil to reduce scale or surface decarburization.

Data is representative of controlled heat treating equipment (e.g. oven,salts, etc.) temperatures and industrial standard quenchant.

Suggested quench oil: Parks 50–expected as quenched hardness may be lower if a slower quench oil or non-industrial quench medium is used.

Austenizing: Austenizing temperature (1,450 to 1,480°F /801°C) Soak time varies 5 to 15 minutes based on heat treating equipment and cross section–soak times are reduced to minimum for people heat treating in a forge–forge heat treating without PID temperature control limits accurate means of maintaining temperature. If using calibrated, proper industrial equipment for heat treating, use the supplied extended soak times based on over all steel thickness.

**Do not put blades in oven when cold, insert at or just below austenizing temperature–temperature variances is for difference in stock thicknesses and a window of margin for error.

Tempering: Once blade is quenched and near ambient temperature, blades should be tempered accordingly, the times suggested are to ensure even, consistent temperature.Figures supplied are as representative of industrial standards.*If using a small toaster oven or household kitchen oven for tempering, using a blade holding rack made from kiln furniture, a roasting tray lined with fine sand, or similar large object will help retain thermal mass to reduce wide swinging temperatures as the device fluctuates trying to maintain temperature.

Note: Final hardness values vary based on initial as-quenched hardness and percentage of conversion to Martensite. Only reliable testing methods, e.g. calibrated Rockwell hardness tester, can provide actual hardness values–hardness calibrated files and chisels are relative testing methods and inaccurate for true hardness value reading.

Temper twice for 2hrs.

Temperature Hardness (2hour x2 guidline)
300°F / 149°C 65
350°F / 177°C 63-64
400°F / 204°C 60-61
450°F / 232°C 57-58
500°F / 260°C 55-56
550°F / 288°C 53-54
600°F / 316°C 52-53

How to Heat Treat Carbon (0-1) Damascus

Coating: ATP-641, Turco, or similar high temperature anti-scale/decarburization coatings can be used in replace of foil to reduce scale or surface decarburization.

Preheating: Heat oven to 1300°F and place material in oven.

Austenitizing (High Heat): Heat slowly (400°F a/hr) from the preheat to 1475-1500°F (802-816C)

Soak for 30 minutes for the first inch (25.4 mm) of thickness, plus 15 minutes for each additional inch (25.4 mm).

Quenching: Oil quench to a temperature no lower than 150-125°F (66-51°C).

***Note: O-1 is somewhat prone to quench cracking, especially if there are significant changes in section thickness and sharp internal corners. The oil quenching should be performed so that the heat removal is as uniform as possible in all areas of the part being quenched. Be sure to remove the part from the oil before the temperature drops to ambient temperature.

Suggested quench oil: Parks AAA, McMaster 11-second, Houghton G–expected as quenched hardness may be lower if a slower quench oil or non-industrial quench medium is used. Parks 50 is not recommended. Heat oil at a temperature of 300 to 400°F (149-204°C) is recommended.

Tempering: Temper immediately after quenching. Do not allow the part to cool below 125°F (51°C). The typical tempering range is 350 – 400°F (177 -204°C).

Hold at temperature for 1 hour per inch (25.4 mm) of thickness, 2 hours minimum, then air cool to ambient temperature.

To minimize internal stresses in cross sections greater than 3 inches (76.2 mm) and to improve stability in parts that will be EDM’d after heat treatment, a soaking time of 4 to 6 hours at the tempering temperature is strongly recommended.

How to Heat Treat Carbon (1095) Damascus

Coating: ATP-641, Turco, or similar high temperature anti-scale/decarburization coatings can be used in replace of foil to reduce scale or surface decarburization.

Austenizing: Heat oven to Austenizing temperature (1475°F / 800°C)

When oven reaches Austenizing temperature, place material in oven and soak for 10 minutes. Soak time can vary from 5 to 15 minutes based on heat treating equipment and cross section but in most cases, a 10 minute soak time is ideal.

**Do not put blades in oven when cold, insert at or just below austenizing temperature–temperature variances is for difference in stock thicknesses and a window of margin for error.

Quenching: Suggested quench oil: Parks 50–expected as quenched hardness may be lower if a slower quench oil or non-industrial quench medium is used.

Tempering: Typical harnesses of 1095 carbon steel after tempering for 2 hours at different temperatures
Grade Temperature, °C (°F) Rockwell hardness, HRC
1095 high carbon steel, carbon content: 0.95% 205°C (400°F) 58 HRC
260°C (500°F) 57 HRC
315°C (600°F) 52 HRC
370°C (700°F) 47 HRC
425°C (800°F) 43 HRC
480°C (900°F) 42 HRC
540°C (1000°F) 41 HRC
595°C (1100°F) 40 HRC
650°C (1200°F) 33 HRC